Page 3 ___________________ Introduction ___________________ Fundamental safety instructions ___________________ SIMOTICS Description of the motor ___________________ Mechanical properties Drive technology 1FN3 linear motors ___________________ Motor components and options ___________________ Configuration Configuration Manual ___________________ Technical data and characteristics ___________________ Preparation for use ___________________ Electrical connection ___________________ Assembly drawings/ dimension sheets...
Page 4 Note the following: WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems.
Page 5: Introduction
Introduction Standard version This documentation only describes the functionality of the standard version. The machine OEM documents any extensions or changes to the motor made by it. For reasons of clarity, this documentation cannot contain all of the detailed information on all of the product types.
Page 6 Products (http://www.siemens.com/motioncontrol) My support The following link provides information on how to create your own individual documentation based on Siemens content, and adapt it for your own machine documentation: My support (https://support.industry.siemens.com/My/de/en/documentation) Note If you want to use this function, you must first register.
Page 7 Introduction Training The following link provides information on SITRAIN – training from Siemens for products, systems and automation engineering solutions: SITRAIN (http://siemens.com/sitrain) Technical Support Country-specific telephone numbers for technical support are provided on the Internet under Contact: Technical Support (https://support.industry.siemens.com)
Page 8 Websites of third parties This publication contains hyperlinks to websites of third parties. Siemens does not take any responsibility for the contents of these websites or adopt any of these websites or their contents as their own, because Siemens does not control the information on these websites and is also not responsible for the contents and information provided there.
Page 9 This document contains recommendations relating to third-party products. Siemens accepts the fundamental suitability of these third-party products. You can use equivalent products from other manufacturers. Siemens does not accept any warranty for the properties of third-party products. 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 10 Introduction 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 11: Table Of Contents
Table of contents Introduction ............................. 3 Fundamental safety instructions ......................13 General safety instructions ..................... 13 Equipment damage due to electric fields or electrostatic discharge ........18 Industrial security ........................19 Residual risks of power drive systems ..................21 Description of the motor ........................23 Highlights and benefits......................
Page 12 Table of contents Service and inspection intervals .................... 73 3.5.1 Safety instructions for maintenance ..................73 3.5.2 Maintenance ........................... 78 3.5.3 Checking the insulation resistance ..................80 3.5.4 The inspection and change intervals for the coolant ............. 81 Motor components and options ......................83 Motor components .........................
Page 13 Table of contents 5.4.7 Checking the work carried out ....................162 5.4.7.1 Smooth running of the slide ....................162 5.4.7.2 Check of the air gap height ....................163 Technical data and characteristics ...................... 165 Explanations ......................... 166 6.1.1 Explanations of the formula abbreviations ................166 6.1.2 Explanations of the characteristic curves ................
Page 14 Table of contents 9.3.4 Heatsink profiles........................531 1FN3300, 1FN3450 ......................533 9.4.1 Mounting the Hall sensor box ....................543 9.4.2 Heatsink profiles........................547 1FN3600 ..........................549 9.5.1 Mounting the Hall sensor box ....................554 9.5.2 Heatsink profiles........................558 1FN3900 ..........................559 9.6.1 Mounting the Hall sensor box ....................
Page 15: Fundamental Safety Instructions
Fundamental safety instructions General safety instructions WARNING Electric shock and danger to life due to other energy sources Touching live components can result in death or severe injury. • Only work on electrical devices when you are qualified for this job. •...
Page 16 Fundamental safety instructions 1.1 General safety instructions WARNING Electric shock due to damaged motors or devices Improper handling of motors or devices can damage them. Hazardous voltages can be present at the enclosure or at exposed components on damaged motors or devices. •...
Page 17 • If you come closer than around 2 m to such components, switch off any radios or mobile phones. • Use the "SIEMENS Industry Online Support app" only on equipment that has already been switched off. WARNING Unrecognized dangers due to missing or illegible warning labels Dangers might not be recognized if warning labels are missing or illegible.
Page 18 Fundamental safety instructions 1.1 General safety instructions WARNING Unexpected movement of machines caused by inactive safety functions Inactive or non-adapted safety functions can trigger unexpected machine movements that may result in serious injury or death. • Observe the information in the appropriate product documentation before commissioning.
Page 19 Fundamental safety instructions 1.1 General safety instructions WARNING Active implant malfunctions due to permanent-magnet fields Even when switched off, electric motors with permanent magnets represent a potential risk for persons with heart pacemakers or implants if they are close to converters/motors. •...
Page 20: Equipment Damage Due To Electric Fields Or Electrostatic Discharge
Fundamental safety instructions 1.2 Equipment damage due to electric fields or electrostatic discharge CAUTION Burn injuries caused by hot surfaces In operation, the motor can reach high temperatures, which can cause burns if touched. • Mount the motor so that it is not accessible in operation. Measures when maintenance is required: •...
Page 21: Industrial Security
Siemens’ products and solutions undergo continuous development to make them more secure. Siemens strongly recommends that product updates are applied as soon as they are available and that the latest product versions are used. Use of product versions that are no longer supported, and failure to apply the latest updates may increase customer’s exposure...
Page 22 Fundamental safety instructions 1.3 Industrial security WARNING Unsafe operating states resulting from software manipulation Software manipulations (e.g. viruses, trojans, malware or worms) can cause unsafe operating states in your system that may lead to death, serious injury, and property damage. •...
Page 23: Residual Risks Of Power Drive Systems
Fundamental safety instructions 1.4 Residual risks of power drive systems Residual risks of power drive systems When assessing the machine- or system-related risk in accordance with the respective local regulations (e.g., EC Machinery Directive), the machine manufacturer or system installer must take into account the following residual risks emanating from the control and drive components of a drive system: 1.
Page 24 Fundamental safety instructions 1.4 Residual risks of power drive systems 5. Release of environmental pollutants or emissions as a result of improper operation of the system and/or failure to dispose of components safely and correctly 6. Influence of network-connected communication systems, e.g. ripple-control transmitters or data communication via the network For more information about the residual risks of the drive system components, see the relevant sections in the technical user documentation.
Page 25: Description Of The Motor
Description of the motor Highlights and benefits 2.1.1 Overview Basic characteristics of the motor 1FN3 motors are permanent-magnet synchronous linear motors with a modular cooling concept. Depending on the accuracy requirements, the motor can be optionally operated with a primary section precision cooler and/or a secondary section cooling. To a large extent, the motors are then thermally neutral with respect to the machine itself.
Page 26: Benefits
Description of the motor 2.1 Highlights and benefits Overview of the connection variants Peak and continuous load motor with two pre-assembled cables with/without connector Peak and continuous load motor with connection cover for two cables Peak load motor with connector cover for one cable with a fixed cable without a connector 2.1.2 Benefits...
Page 27 Description of the motor 2.1 Highlights and benefits Special features ● Modular design: The motor can therefore be configured to optimally match the technical requirements. The modularity of the motor is explained in Chapter "Motor components and options (Page 83)". ●...
Page 28: Use For The Intended Purpose
Where relevant, take into account deviations regarding approvals or country-specific regulations. • Contact your local Siemens office if you have any questions relating to correct use. • If you wish to use special versions and design versions whose technical details vary from the motors described in this document, then you must contact your local Siemens office.
Page 29: Technical Features And Environmental Conditions
Description of the motor 2.3 Technical features and environmental conditions Applications for continuous load motors Combined with a drive system with closed-loop control, continuous load motors are well suited as direct drives for linear motion, e.g. for: ● Oscillating motion (e.g. out-of-center machining) ●...
Page 30 SIMOTICS motors comply with the requirements of the Russia/Belarus/Kazakhstan (EAC) customs union. China Compulsory Certification SIMOTICS motors do not fall within the scope covered by the China Compulsory Certification (CCC). CCC negative certification: CCC product certification (https://support.industry.siemens.com/cs/products?search=CCC&dtp=Certificate&mfn=ps&o =DefaultRankingDesc&pnid=13347&lc) 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 31: Danger From Strong Magnetic Fields
Quality systems Siemens AG employs a quality management system that meets the requirements of ISO 9001 and ISO 14001. Certificates for SIMOTICS motors can be downloaded from the Internet at the following link: Certificates for SIMOTICS motors (https://support.industry.siemens.com/cs/ww/de/ps/13347/cert)
Page 32 Description of the motor 2.3 Technical features and environmental conditions Components with permanent magnets For the linear motors described in this manual, the permanent magnets are in the secondary sections. Figure 2-1 Secondary section with permanent magnets Figure 2-2 Schematic representation of the static magnetic field of a secondary section, depending on distance 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 33 Description of the motor 2.3 Technical features and environmental conditions Risk to persons as a result of strong magnetic fields WARNING Risk of death as a result of permanent magnet fields Even when the motor is switched off, the permanent magnets can put people with active medical implants at risk if they are close to the motor.
Page 34 Description of the motor 2.3 Technical features and environmental conditions WARNING Danger of crushing by permanent magnets of the secondary section The forces of attraction of magnetic secondary sections act on materials that can be magnetized. The forces of attraction increase significantly close to the secondary section. The trigger threshold of 3 mT for a risk of injury due to attraction and projectile effect is reached at a distance of 150 mm (directive 2013/35/EU).
Page 35 Description of the motor 2.3 Technical features and environmental conditions First aid in the case of accidents involving permanent magnets ● Stay calm. ● If the machine is energized, press the emergency stop switch and open the main switch if necessary.
Page 36: Technical Features
Description of the motor 2.3 Technical features and environmental conditions 2.3.3 Technical features Table 2- 1 Standard version of the 1FN3 range of motors: Technical features Technical feature Design Motor type Permanently excited synchronous linear motor Type of construction Individual components Degree of protection Primary section: IP65 •...
Page 37: Direction Of Motion Of The Motor
Description of the motor 2.3 Technical features and environmental conditions 2.3.4 Direction of motion of the motor Defining the traversing direction If the primary section is connected to the terminals of the terminal box with the phase sequence U-V-W and is supplied with current by a three-phase system with a clockwise rotating field, the direction of motion of the primary or secondary section is positive.
Page 38: Ambient Conditions For Stationary Use
Description of the motor 2.3 Technical features and environmental conditions 2.3.5 Ambient conditions for stationary use You can classify the ambient conditions for stationary use at weatherprotected locations according to the standard DIN IEC 60721-3-3. The environmental effects and their limit values are defined in various classes in this standard.
Page 39: Scope Of Delivery
Description of the motor 2.3 Technical features and environmental conditions Note Installation instructions The motors are not suitable for operation • In salt-laden or corrosive atmospheres • Outdoors You can find additional data on the environmental conditions, such as ambient temperatures or conditions for transport and storage of the motors, in the relevant chapters of this documentation.
Page 40: Supplied Pictograms
Description of the motor 2.3 Technical features and environmental conditions 2.3.6.2 Supplied pictograms Primary sections To identify hazards, warning signs in the form of permanent adhesive stickers are enclosed with all primary sections in the packaging: Table 2- 3 Warning signs included with primary sections according to BGV A8 and EN ISO 7010 and their meaning Sign Meaning...
Page 41 Description of the motor 2.3 Technical features and environmental conditions Table 2- 6 Prohibiting signs according to BGV A8 and EN ISO 7010 included with secondary sections and their meaning Sign Meaning Sign Meaning No access for persons No access for persons with pacemakers or with metal implants implanted defibrillators...
Page 42: Derating Factors
Description of the motor 2.4 Derating factors Derating factors For installation altitudes above 2000 m above sea level, reduce the voltage stress of the motors according to table "Factors to reduce the maximum DC link voltage" (reciprocal values from EN 60664-1 Table A. 2). Table 2- 7 Factors to reduce the maximum DC link voltage Installation altitude above sea level in m up to...
Page 43: Primary Sections
Description of the motor 2.5 Selection and ordering data 2.5.1.1 Primary sections 2.5.1.2 Secondary sections 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 44: Primary Section Accessories
Description of the motor 2.5 Selection and ordering data 2.5.1.3 Primary section accessories Precision cooler Hall sensor box The Hall sensor box can be mounted opposite to the primary section’s terminal end or on the terminal end of the primary section. The standard location is opposite to the primary section’s terminal end.
Page 45 Description of the motor 2.5 Selection and ordering data Connection cover For 1FN3 linear motors, all of the connection covers can also be separately ordered. Table 2- 8 Article numbers Connection cover Primary section size Thread for gland 1FN3002-0PB01-0AA0 1FN3100 and 1FN3150 1 x PG16 1FN3003-0PB02-0AA0 1FN3300 to 1FN3900...
Page 46: Accessories For The Secondary Section Track
Description of the motor 2.5 Selection and ordering data 2.5.1.4 Accessories for the secondary section track Secondary section end pieces Secondary section cover Segmented cover 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 47 Description of the motor 2.5 Selection and ordering data Cover with metal strip Cooling sections 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 48 Description of the motor 2.5 Selection and ordering data Overview of heatsink profiles Table 2- 9 Heatsink profiles – variants and lengths that can be ordered For sizes For sizes For sizes For sizes 1FN3050 1FN3300 1FN3600 1FN3900 1FN3100 1FN3450 1FN3150 Lengths: None available Length: 3000 mm...
Page 49: Ordering Examples
Description of the motor 2.5 Selection and ordering data 2.5.1.5 Ordering examples Ordering example of a peak or continuous load motor If you have any questions on configuring, contact your local Siemens office. Table 2- 10 Peak load motor Continuous load motor Component Quantity Article No.
Page 50 Description of the motor 2.5 Selection and ordering data Figure 2-4 Heatsink profiles for secondary section track sizes 1FN3300-4SA00-0AA0, 1FN3450-4SA00-0AA0 Figure 2-5 Heatsink profiles for secondary section track size 1FN3600-4SA00-0AA0 Figure 2-6 Heatsink profiles for secondary section track size 1FN3900-4SA00-0AA0 The following ordering examples show serially connected heatsink profiles that are connected via plug-type couplings.
Page 51 Description of the motor 2.5 Selection and ordering data Figure 2-7 Heatsink profiles for secondary section track sizes 1FN3050-4SA00-0AA0, 1FN3100-4SA00-0AA0, 1FN3150-4SA00-0AA0 Figure 2-8 Heatsink profiles for secondary section track sizes 1FN3300-4SA00-0AA0, 1FN3450-4SA00-0AA0 Figure 2-9 Heatsink profiles for secondary section track size 1FN3600-4SA00-0AA0 Figure 2-10 Heatsink profiles for secondary section track size 1FN3900-4SA00-0AA0 1FN3 linear motors...
Page 52: Selection And Ordering Data 1Fn3
Description of the motor 2.5 Selection and ordering data 2.5.2 Selection and ordering data 1FN3 Note Overview of important motor data A selection of important motor data and dimensions is provided in this chapter. All of the data sheets are provided in Chapter "Technical data and characteristics (Page 165)" and in Chapter "Assembly drawings/dimension sheets (Page 509)".
Page 53 Description of the motor 2.5 Selection and ordering data Article No. Primary section MAX,FN MAX,FMAX in N in N in A in A in m/min in m/min in kW 1FN3300-4WC00-0xAx 2450 6900 25.3 78.3 1.71 1FN3450-2WA50-0xAx 1930 5180 8.91 1.47 1FN3450-2WB70-0xAx 1930 5180...
Page 54 Description of the motor 2.5 Selection and ordering data Table 2- 12 Overview of the most important data of the peak load motors of the 1FN3 product family / Part 2 Article No. Primary section P,AKT in mm in mm in mm in mm in kg...
Page 55 Description of the motor 2.5 Selection and ordering data Article No. Primary section P,AKT in mm in mm in mm in mm in kg in mm in kg 1FN3600-2WB00-0xAx 64.1 / 86 248 / 257 22.5 / 25 4.6 / 5 1FN3600-2WB50-0xAx 64.1 / 86 248 / 257...
Page 56 Description of the motor 2.5 Selection and ordering data Overview of important data of the continuous load motors of the 1FN3 product family The following tables provide an overview of the most important data of the continuous load motors of the 1FN3 product family. For the mass and size, models with and without optional precision cooling elements are listed.
Page 57 Description of the motor 2.5 Selection and ordering data Article No. Primary section MAX,FN MAX,FMAX in N in N in A in A in m/min in m/min in kW 1FN3600-4NB80-0xAx 6920 11700 56.7 3.74 1FN3900-2NB20-0xAx 5190 8810 28.4 59.6 69.4 2.65 1FN3900-2NC80-0xAx 5190...
Page 58 Description of the motor 2.5 Selection and ordering data Article No. Primary section P,AKT in mm in mm in mm in mm in kg in mm in kg 1FN3450-4NB20-0xAx 80 / 94.9 188 / 197 42 / 44 3.8 / 4 1FN3450-4NB80-0xAx 80 / 94.9 188 / 197...
Page 59: Rating Plate Data
Description of the motor 2.6 Rating plate data Rating plate data Data on the rating plate Figure 2-11 Examples of rating plates for primary sections Table 2- 15 Elements on the rating plate for primary sections Item Description Motor type Options Rated force F Article No.
Page 60 Description of the motor 2.6 Rating plate data Figure 2-12 Example of a nameplate for a secondary section Table 2- 16 Elements on the nameplate for secondary sections Item Description Serial number Article No. 2D code, contains the data of the secondary section Approvals/conformities Manufacturer Version of secondary section...
Page 61: Mechanical Properties
Mechanical properties Cooling The water cooling system dissipates the power loss generated in the primary section. ● Connect the interconnected cooling channels to the cooling circuit of a heat-exchanger unit. You can find characteristic curves for the pressure drop of the coolant between the flow and return circuit of the coolers as a function of the volume flow rate in Chapter "Technical data and characteristics".
Page 62 Mechanical properties 3.1 Cooling Details of the heat dissipation The following figure shows details of the heat dissipation according to the Thermo-Sandwich® principle. Figure 3-1 Heat dissipation from motors of the 1FN3 product family Primary section main cooler / cooling of the primary section The primary section main cooler is directly installed in the primary section.
Page 63 Mechanical properties 3.1 Cooling If the primary section precision cooler is not used, the temperatures on the surface of the motor may exceed 100 °C. Secondary section cooling / thermal insulation of the secondary section The secondary section cooling dissipates 5% to 8% of the total power loss of the motor under rated conditions.
Page 64 Mechanical properties 3.1 Cooling Heatsink profiles The heatsink profiles are laid between the machine base and the secondary sections and together with these screwed to the machine base. The following two figures show the resulting cooling system without secondary section end pieces. The blue dotted lines indicate the coolant flow.
Page 65 Mechanical properties 3.1 Cooling For size 1FN3600 and larger, three heatsink profiles with a total of six cooling channels are used. The lateral profiles protrude just a little beyond the secondary section. The middle (additional) heatsink profile is attached by the line of screws in the center of the secondary sections.
Page 66 Mechanical properties 3.1 Cooling Figure 3-5 Secondary section cooling for motors of sizes 1FN3600 and 1FN3900 with combi distributors (side and top view) Figure 3-6 Secondary section cooling for motors of sizes 1FN3050 ... 1FN3450 with combi adapter and combi end piece (side and top view) 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 67: Cooling Circuits
Mechanical properties 3.1 Cooling Figure 3-7 Secondary section cooling consisting of heatsink profiles with hose connector nipples and cover end pieces on both sides for all motors of sizes 1FN3050 … 1FN3450 (side and top view) Note Pressure drop for combi adapter and end piece Because of the high pressure drops, only use secondary section cooling with a combi adapter / combi end piece for traversing distances up to a length of approx.
Page 68 Mechanical properties 3.1 Cooling ● If you use the machine cooling circuits to also cool the motors, you must ensure that the coolant fully complies with the requirements listed in this chapter. ● Also note the maximum non-operational times of cooling circuits corresponding to the coolant manufacturer’s data.
Page 69 Mechanical properties 3.1 Cooling Example of the interconnection of cooling circuits The following figure shows two examples for the series connection of different cooling circuits: On the left, all cooling circuits of the motor are connected in series. On the right, the cooling circuits of the primary section precision cooler and the primary section main cooler of a motor form a series connection.
Page 70 Mechanical properties 3.1 Cooling Coolant intake temperature NOTICE Corrosion in the machine Condensation can lead to corrosion in the machine. • Select the intake temperatures so that no condensation forms on the surface of the motor. Condensation does not form if the intake temperature T is higher than the VORL ambient temperature or corresponds to the ambient temperature.
Page 71 Mechanical properties 3.1 Cooling Heat-exchanger unit Use a heat-exchanger unit to ensure an flow temperature of 35 °C. Several primary sections can be connected to a heat-exchanger unit. The heat-exchanger units are not included in the scope of delivery. The cooling capacity is calculated from the sum of the power losses of the connected primary sections.
Page 72: Coolants
Mechanical properties 3.1 Cooling 3.1.3 Coolants Provision of the coolant The customer must provide the coolant. The motors are designed for use with an anti- corrosion protection agent added to the water. NOTICE Disintegration of O-rings and hoses The use of oil as a coolant can lead to material incompatibilities. O-rings and hoses can disintegrate.
Page 73: Degree Of Protection
Mechanical properties 3.2 Degree of protection Requirements placed on the anti-corrosion agent The anti-corrosion agent must fulfill the following requirements: ● The basis is ethylene glycol (also called ethanediol) ● The water and anti-corrosion agent do not segregate ● The freezing point of the water used is reduced to at least -5 °C ●...
Page 74: Vibration Response
Mechanical properties 3.3 Vibration response Installed motor The better the motor installation space is protected against the ingress of foreign particles (especially true for ferromagnetic particles), the longer the motor service life. The space around the motor must be kept free of chips and other foreign bodies. The degree of protection of the installed motor according to EN 60529 and EN 60034-5 is primarily dictated by the machine construction, but must be at least IP23.
Page 75: Service And Inspection Intervals
Mechanical properties 3.5 Service and inspection intervals Service and inspection intervals 3.5.1 Safety instructions for maintenance WARNING Risk of injury as a result of inadvertent traversing motion If, with the motor switched on, you work in the traversing range of the motor, and the motor undesirably moves, this can result in death, injury and/or material damage.
Page 76 Mechanical properties 3.5 Service and inspection intervals WARNING Risk of death and crushing as a result of permanent magnet fields Severe injury and material damage can result if you do not take into consideration the safety instructions relating to the permanent magnet fields of the secondary sections. •...
Page 77 Mechanical properties 3.5 Service and inspection intervals WARNING Risk of burning when touching hot surfaces There is a risk of burning when touching hot surfaces immediately after the motor has been operational. • Wait until the motor has cooled down. WARNING Risk of electric shock due to incorrect connection There is a risk of electric shock if direct drives are incorrectly connected.
Page 78 Mechanical properties 3.5 Service and inspection intervals WARNING Risk of electric shock Voltage is induced at the power connections of the primary section each time a primary section moves with respect to a secondary section – and vice versa. When the motor is switched on, the power connections of the primary section are also live. If you touch the power connections you may suffer an electric shock.
Page 79 Risk of death, serious personal injury and/or material damage when carrying out disassembly work. • When performing disassembly work, observe the information in Chapter "Decommissioning and disposal " in the Operating Instructions "SIMOTICS L-1FN3 Linear Motors." The motors have been designed for a long service life. Carefully ensure that maintenance work is correctly performed, e.g.
Page 80: Maintenance
Siemens regarding personal injury or material damage. Siemens service centers are available to answer any questions you may have. Siemens Service Center addresses can be found at http://www.siemens.com/automation/service&support...
Page 81 Mechanical properties 3.5 Service and inspection intervals Intervals between maintenance Since operating conditions differ greatly, it is not possible to specify intervals between maintenance work. Indications that maintenance work is required ● Dirt in the motor cabinet ● Distinctive changes in the behavior of the machine ●...
Page 82: Checking The Insulation Resistance
• If a higher DC or AC voltage is necessary to test the machine/plant, you must coordinate the test with your local Siemens office! • Carefully observe the operating instructions of the test equipment! Always proceed as follows when testing the insulation resistance of individual motors: 1.
Page 83: The Inspection And Change Intervals For The Coolant
Mechanical properties 3.5 Service and inspection intervals 3.5.4 The inspection and change intervals for the coolant Test and replacement intervals of the cooling medium The test and replacement intervals for the cooling medium should be agreed with the manufacturers of the anti-corrosion agent and the cooling system. 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 84 Mechanical properties 3.5 Service and inspection intervals 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 85: Motor Components And Options
Motor components and options Motor components 4.1.1 Overview of the motor construction Motor components Motors of the 1FN3 product family consist of the following components: ● Primary section: – Basic component of the linear motor – With 3-phase winding – Integrated main cooler to dissipate the heat loss ●...
Page 86 Motor components and options 4.1 Motor components ① ③ ⑤ Precision cooler Secondary section cover Heatsink profile (option) (option), with plug-type coupling here as a continuous band; (option) alternatively as a segmented cover ② ④ ⑥ Primary section with main Secondary section Secondary section end piece cooler...
Page 87: Temperature Monitoring And Thermal Motor Protection
Motor components and options 4.1 Motor components 4.1.2 Temperature monitoring and thermal motor protection 4.1.2.1 Temperature monitoring circuits Temp-S and Temp-F The primary sections are equipped with two subsequently described temperature monitoring circuits – Temp-S and Temp-F. ● Temp-S activates the thermal motor protection when the motor windings are thermally overloaded.
Page 88 Motor components and options 4.1 Motor components Note Shutdown time If Temp-S responds, and its response threshold is not undershot again in the meantime, then the drive system must shut down (de-energize) the motor within 2 seconds. This prevents the motor windings from becoming inadmissibly hot. NOTICE Motor destroyed as a result of overtemperature The motor can be destroyed if the motor winding overheats.
Page 89 Motor components and options 4.1 Motor components Temp-F as KTY 84 or Pt1000 The 16th digit of the order designation on the rating plate of the primary section indicates whether a KTY 84 or a Pt1000 is installed, see Rating plate data (Page 57): 1FN3xxx-xxxxx-xxx1: with KTY 84 1FN3xxx-xxxxx-xxx3:...
Page 90: Technical Features Of Temperature Sensors
Motor components and options 4.1 Motor components 4.1.2.2 Technical features of temperature sensors Technical features of PTC temperature sensors Every PTC temperature has a "quasi-switching" characteristic. The resistance suddenly increases in the vicinity of the response threshold (nominal response temperature ϑ PTC temperature sensors have a low thermal capacity –...
Page 91 Motor components and options 4.1 Motor components Technical features of the KTY 84 temperature sensor The KTY 84 has a progressive temperature resistance characteristic that is approximately linear. In addition, the KTY 84 has a low thermal capacity and provides good thermal contact with the motor winding.
Page 92 Motor components and options 4.1 Motor components Technical features of the Pt1000 temperature sensor The Pt1000 has a linear temperature resistance characteristic. In addition, the Pt1000 has a low thermal capacity and provides good thermal contact with the motor winding. Table 4- 3 Technical data of the Pt1000 PTC thermistor Name...
Page 93: Encoders
Siemens will support you with dimensioning, designing and optimizing your machine by means of measurement-based and computer-based analyses. You can obtain additional information from your Siemens contacts. You will find the Internet link on "Technical Support" in the "Introduction". Encoder system In the following, encoder system stands for position measuring systems, position encoders, encoders etc.
Page 94 Motor components and options 4.1 Motor components Requirements regarding the encoder Your choice of encoder essentially depends on the following application and converter- specific conditions: ● Specified maximum velocity ● Specified velocity accuracy ● Specified positioning accuracy and resolution ● Pollution level expected ●...
Page 95 Motor components and options 4.1 Motor components Figure 4-3 Performance-resolution diagram WARNING Uncontrolled motor motion due to incorrect commutation Incorrect commutation can result in uncontrolled motor movements. • Only carry out the work associated with replacing the encoder if you have been appropriately trained.
Page 96 To ensure that the encoder is optimally integrated into the mechanical system, Siemens offers its "Mechatronic Support" service (see Catalog). For additional information, please contact your local Siemens office. You can find the "Technical Support" Internet link in Chapter "Introduction".
Page 97: Hall Sensor Box
Motor components and options 4.1 Motor components 4.1.4 Hall Sensor Box Use of the Hall sensor box The Hall sensor box is used in incremental position measuring systems. It measures the motor pole position duirng power-up so that the drive can carry out a reference point approach (coarse synchronization).
Page 98 Motor components and options 4.1 Motor components Hall sensor box mounting types Figure 4-4 Hall sensor box mounting types for models 050 to 150 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 99: Braking Concepts
Motor components and options 4.1 Motor components Figure 4-5 Hall sensor box mounting types for models 300 to 900 4.1.5 Braking concepts WARNING Uncontrolled motion when malfunctions occur Malfunctions can lead to uncontrolled motion of the drive. • Provide measures so that in the case of a fault, the maximum kinetic energy of the machine slide can be braked.
Page 100 Motor components and options 4.1 Motor components Possible malfunctions Malfunctions can occur e.g. for: ● Power failure ● Encoder failure, encoder monitoring responds ● Higher-level control failure (e.g., NCU); bus failure ● Control Unit failure ● Drive fault ● Faults in the NC Braking and emergency stop concepts The design and calculation of brake systems depends on the maximum kinetic energy, i.e.
Page 101: Options
Motor components and options 4.2 Options Use of a holding brake Due to latching forces, the motors can be pulled into a preferred magnetic position if the motor is no longer supplied with power from the drive. If the drive is already at a standstill, this can cause unexpected movements in up to a half magnetic pole pitch in both directions.
Page 102 Motor components and options 4.2 Options ● Heatsink profiles with plug-type coupling/nipple: – Secondary section cooling component – Aluminum rail sections with integrated cooling channels – Are placed under the secondary sections when high machine precision is required ● Secondary section end pieces: –...
Page 103 Motor components and options 4.2 Options Overview of the versions The overview shows the following secondary section end piece versions: ● Combi distributor: – Standard solution for using secondary section end pieces – Available for all sizes – Fixes the secondary section cover (strip) at the beginning and end of the secondary section track –...
Page 104 Motor components and options 4.2 Options 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 105: Configuration
Siemens will support you with dimensioning, designing and optimizing your machine by means of measurement-based and computer-based analyses. You can obtain additional information from your Siemens contacts. You will find the Internet link on "Technical Support" in the "Introduction". Configuring software 5.1.1...
Page 106: Starter Drive/Commissioning Software
● Comments on system reactions ● Installation information of the drive and control components ● Energy considerations of the configured drive systems You can find additional information that you can download in the Internet at SIZER (https://support.industry.siemens.com/cs/document/54992004/sizer-for-siemens- drives?dti=0&pnid=13434&lc=en-WW). 5.1.2 STARTER drive/commissioning software The STARTER commissioning tool offers ●...
Page 107 Configuration 5.2 Configuring workflow Sequence As a rule, the motor selection is an iterative process as, especially with high dynamic direct drives, the intrinsic mass of the motor type also determines the required powers. The following figure is a flowchart of this process. Figure 5-1 Flowchart for the drive configuration 1FN3 linear motors...
Page 108: Mechanical Boundary Conditions
Configuration 5.2 Configuring workflow 5.2.1 Mechanical boundary conditions Introduction The constraints that influence the selection of the motor include: ● Dynamic masses (incl. motor mass) ● Effects of gravitation ● Friction ● Machining forces ● Travel lengths ● The drive configuration Dynamic masses All machine parts, equipment in the cable carrier, covers, mounting parts, etc.
Page 109 Configuration 5.2 Configuring workflow Gravitation Every mass is subject to gravity. The motor must thus compensate for part of the gravitational force F exerted on the dynamic mass. This component F depends on the dynamic mass m, the mounting position of the axis in relation to the Earth's normal (angle α), and any weight compensation used.
Page 110 Configuration 5.2 Configuring workflow Both components depend on the type of linear guide used and its loading. Loads are also included which, depending on the mechanical design version, especially include the forces due to gravity (F from the diagram above) and magnetic forces of attraction F between ⊥...
Page 111: Type Of Duty Cycle
Configuration 5.2 Configuring workflow 5.2.2 Type of duty cycle Uninterrupted duty S1 With uninterrupted duty S1, the motor runs permanently with a constant load. The load period is sufficient to achieve thermal equilibrium. The rated data is of relevance when dimensioning the motor for uninterrupted duty. NOTICE Motor overload An excessively high load can lead to shutdown, or if the temperature sensors are not...
Page 112 , it is not permissible that the rms current exceeds the rated current: In this respect, the cycle duration should not exceed 10% of the thermal time constant t If a longer cycle duration is necessary, please contact your local Siemens office. 1FN3 linear motors...
Page 113 Configuration 5.2 Configuring workflow Example With a thermal time constant of t = 120 s, the maximum permissible cycle duration Δt = 0.1 · 120 s = 12 s. Spiel Significance of the duty cycle In addition to the frictional and gravitational forces, the duty cycle is decisive for the choice of motor.
Page 114 Configuration 5.2 Configuring workflow The inertia forces that result from the sequence of motion and that the motor must compensate for, are proportional to the acceleration a and the dynamic mass m: = m ‧ a They oppose the direction of acceleration. machining force - time diagram for a motor could look like the following figure.
Page 115: Calculating Forces
Configuration 5.2 Configuring workflow 5.2.3 Calculating forces Determination of the motor force The force that the motor has to provide consists of the sum of the individual forces at any time. The signs of the forces must be taken into account! The following diagram shows an example of the individual forces for a linear motor and the resulting motor force F Figure 5-7...
Page 116: Selection Of The Primary Sections
Configuration 5.2 Configuring workflow Calculation of the effective force of the duty cycle In addition to the peak force, the required effective force of the duty cycle of the motor is maximum decisive for its dimensioning. The effective force of the duty cycle of the motor F is calculated from the square mean of the motor force over the entire time Δt of a sequence of motion and must not exceed the rated force F...
Page 117 Configuration 5.2 Configuring workflow ● All required forces can be achieved at the required velocities. ● Overload phases of the duty cycle must not lead to shutdown by the temperature monitoring. In addition to the requirements from the duty cycle, mechanical installation conditions may influence the choice of motor.
Page 118: Specifying The Number Of Secondary Sections
With persistent uneven loading, the motor must only be operated at about 70% of the rated force, see F * in the data sheets. For precise dimensioning, please contact your local Siemens office. 5.2.5 Specifying the number of secondary sections...
Page 119 Configuration 5.2 Configuring workflow Specifying the total length of the secondary section track The total length of a secondary section track determines the number of required secondary sections. It depends on the length of the desired traversing distance, the number of primary sections on this secondary section track and, if applicable, the use of a Hall sensor box.
Page 120: Operation In The Area Of Reduced Magnetic Coverage
Configuration 5.2 Configuring workflow Several primary sections on a secondary section track If several primary sections are to be mounted on a secondary section track, the required length of the secondary section increases by the active length of the additional primary sections and the distances between them, see the figure below: Figure 5-11 Determination of the length of the secondary section track with several primary sections...
Page 121: Checking The Dynamic Mass
Configuration 5.2 Configuring workflow The velocity in areas of reduced magnetic coverage should not exceed 25% of the rated velocity v MAX,FN The area of reduced magnetic coverage should be used only to approach parking or service positions, but not for machining. When using a Hall sensor box (HSB) for position identification, it must be carefully ensured that when the system is switched on the HSB is located above the magnets of the secondary section track, and the primary section can move as a result of its own force.
Page 122: Calculation Of The Required Infeed
• To dampen the oscillations we recommend the use of the associated Active Interface Module or an HFD reactor with damping resistor. For specific details, refer to the documentation of the drive system being used or contact your local Siemens office. Note The corresponding Active Interface Module or the appropriate HFD line reactor must be used to operate the Active Line Module controlled infeed unit.
Page 123: Examples
Configuration 5.3 Examples This is used to calculate the required line current I of the Active Infeed as follows: Netz / (√3 • U • cosφ Netz Netz Netz Netz If the Active Infeed is operated according to the factory setting, i.e. with a line-side power factor of cosφ...
Page 124 Configuration 5.3 Examples Figure 5-12 Example 1: Representation of the predefined variables in the distance-time diagram The individual predefined variables are: Traversing distance = 0.26 m Traversing time Δt = 0.21 s Dwell time Δt = 0.18 s Mass to be moved m = 50 kg (without motor mass) Constant friction...
Page 125 Configuration 5.3 Examples Figure 5-13 Example 1: Motion sequence for the simplest traversing profile From the specified values, you can calculate how great the maximum velocity and maximum acceleration (deceleration) of the motor must be: 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 126 Configuration 5.3 Examples Since the force required for this is not yet known, F will be assumed. The value for the maximum velocity v then corresponds with the values listed for v in the data MAX,FMAX sheets. A velocity v = 2.48 m/s = 149 m/min is often above the maximum permissible values v for the 1FN3 motors.
Page 127 Configuration 5.3 Examples Otherwise, the duration of time t will not be long enough to position the motor at s . In the current example, the following must apply for the maximum velocity of the motor: ≥ 1.24 m/s = 74.3 m/min A higher acceleration a must be used than with the previous profile so that the motor can be positioned in the same time t...
Page 128 Configuration 5.3 Examples Calculating the required maximum force for the selected primary sections 1st iteration step Peak load motor The total mass to be moved m 1FN3100-4WC00-0BA1 = m + m = (50 + 8.5) kg = 58.5 kg Motor The maximum force that the motor must supply for the duty cycle is: ·...
Page 129 Configuration 5.3 Examples Calculation of the effective force F of the duty cycle The following figure shows the force/time graph for the entire sequence of motion for this example. Figure 5-15 Example 1: Force-time diagram of the duty cycle considered 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 130 Configuration 5.3 Examples Peak load motor · a + F = 2617 N Travel to position s 1FN3150-4WC00-0BA1 = 100 N = -m · a + F = - 2417 N = 0 N Dwell time = -m · a - F = - 2617 N Travel to position s = - 100 N...
Page 131 Configuration 5.3 Examples A rule of thumb for selecting the primary section is as follows: In this particular example, the quotient F is equal to 2.1. For peak force F of the L,max L,MAX duty cycle, the peak load motor has sufficient reserves with its maximum force F .
Page 132: Gantry With Transverse Axis
Configuration 5.3 Examples Calculating the infeed power The electrical infeed power is obtained from the mechanical power P and the power loss MECH of the motor P . The rms values of the motor velocity and motor force resulting from the V,Mot duty cycle are used as basis for the calculation.
Page 133 Configuration 5.3 Examples Depending on how far this transverse axis is moved out of the center position, the slide mass is distributed between both motors of the gantry axis. This means that in addition to half the mass of the gantry, the individual motor also has to move the percentage mass of the transverse axis slide.
Page 134: Dimensioning The Cooling System
Configuration 5.3 Examples 5.3.3 Dimensioning the cooling system 5.3.3.1 Basic information Individual coolers Based on the required effective force of the duty cycle F , heat Q that must be dissipated by the individual coolers can be calculated first of all. This also corresponds to the cooling capacity P , which a cooling unit or a heat exchanger must have for the cooling being kühl,i...
Page 135: Example: Dimensioning The Cooling
Configuration 5.3 Examples 5.3.3.2 Example: Dimensioning the cooling Requirement A peak load motor with a primary section of the 1FN3300-2WC00 series is to be operated with an effective force of the duty cycle F = 0.8 F . A primary section main cooler is necessary for this application.
Page 136 Configuration 5.3 Examples Calculating the pressure drop Pressure drop in the secondary section cooling system The secondary section cooling comprises a coupling point and two combi distributors. The parallel heatsink profiles for the 1FN3300 have a length of l = 0.716 m (4 secondary sections) and l = 0.900 m (5 secondary sections).
Page 137 Configuration 5.3 Examples Calculating the temperature rise Individual cooling circuits The values for the individual cooling circuits are calculated as follows: Total cooling For the total cooling, the following results: ΔT = ΔT + ΔT + ΔT = 2.3 K + 0.08 K + 0.21 K gesamt S,ges ΔT...
Page 138: Mounting
Configuration 5.4 Mounting Mounting 5.4.1 Safety instructions for mounting WARNING Risk of death and crushing as a result of permanent magnet fields Severe injury and material damage can result if you do not take into consideration the safety instructions relating to the permanent magnet fields of the secondary sections. •...
Page 139 Configuration 5.4 Mounting WARNING Danger of crushing by permanent magnets of the secondary section The forces of attraction of magnetic secondary sections act on materials that can be magnetized. The forces of attraction increase significantly close to the secondary section. The trigger threshold of 3 mT for a risk of injury due to attraction and projectile effect is reached at a distance of 150 mm (directive 2013/35/EU).
Page 140 Configuration 5.4 Mounting WARNING Electric shock caused by defective cables Defective connecting cables can cause an electric shock and/or material damage, e.g. by fire. • When installing the motor, make sure that the connecting cables – are not damaged, – are not under tension, –...
Page 141: Mechanical Design
Configuration 5.4 Mounting CAUTION Sharp edges and falling objects Sharp edges can cause cuts and falling objects can injure feet. • Always wear safety shoes and safety gloves! 5.4.2 Mechanical design Typical installation situation of a linear motor Linear motors are built-in motors. The following figure shows a typical installation situation. Figure 5-18 Typical installation situation of a single-sided motor with moving primary section Attraction force...
Page 142: Specifications For Mounting Linear Motors
Configuration 5.4 Mounting 5.4.3 Specifications for mounting linear motors General rules When you fasten primary sections and secondary sections on the machine construction, you must observe the following: ● Use screws of property class 10.9. ● Use only new, unused screws. ●...
Page 143 Configuration 5.4 Mounting Thread depth and screw-in depths in the primary section The following drawings schematically illustrate the minimum permissible and maximum screw-in depth of the mounting screws in the screwed-in state, with and without the use of a precision cooler. For selecting the screw length, a good range is thus made available to the machine manufacturer.
Page 144: Procedure When Installing The Motor
Configuration 5.4 Mounting Screw-in depths for the secondary section installation Minimum permissible screw-in depth The minimum permissible screw-in depths for the most commonly used materials for a machine bed are listed below. For different materials, you must determine the screw-in depth according to VDI Directive 2230.
Page 145: Comply With The Installation Dimensions
Configuration 5.4 Mounting 5.4.4.1 Comply with the installation dimensions Installation dimensions for the motor installation The following figure shows the installation dimensions for the motor installation. The associated values are specified in the following table. Figure 5-20 Installation dimensions for the motor installation Peak load motor: Installation dimensions Table 5- 3 Installation dimensions for installing the motor according to figure above...
Page 146: Motor Installation Procedures
Configuration 5.4 Mounting Continuous load motor: Installation dimensions Table 5- 4 Installation dimensions for installing the motor according to figure above Installation dimen- Installation dimen- Installation dimen- Installation dimen- Tolerance of sion with precision sion with precision sion without preci- sion without preci- the installa- cooler and with...
Page 147 Configuration 5.4 Mounting 2. Push the slide to one side. Mount the secondary section on the other side. Align the secondary section track. Tighten the mounting screws according to the specifications. WARNING Risk of crushing when moving the primary section onto the secondary section track (step 3) When moving the primary section onto the secondary section track (Step 3), drawing forces towards the secondary section will occur for a short time.
Page 148 Configuration 5.4 Mounting Motor assembly through the insertion of the slide This type of assembly is only intended for setting up motors in a double-sided arrangement. WARNING Risk of crushing as result of attractive forces In this procedure, pulling forces towards the stationary motor component occur. There is a risk of crushing! •...
Page 149 Configuration 5.4 Mounting Motor assembly through the mounting of the motor components If other assembly methods are not possible, this complex method is applied. Application example The secondary section track is shorter than twice the length of the primary section. The primary section together with the slide cannot be shifted to the side far enough so that all of the secondary sections can be easily screwed into place.
Page 150 Configuration 5.4 Mounting 2. Place the primary section with a forcing assembly on the secondary section track as follows. WARNING Danger of crushing when mounting the primary section on the secondary section! When you are placing the primary section on the secondary section, there is a risk of crushing due to the high forces of attraction.
Page 151 Configuration 5.4 Mounting ● Mount the primary section on the forcing plate of a forcing assembly. You can use the factory-made mounting holes for this purpose. ● Screw the jack screws into the forcing plate. Ensure that the jack screws protrude evenly from the forcing plate.
Page 152: Assembling Individual Motor Components
Configuration 5.4 Mounting 3. Mount the primary section on the slide. ● Secure the slide on the guides. ● Push the slide over the primary section. When doing this, the mounting holes of the primary section and slide must be fully aligned. ●...
Page 153 Configuration 5.4 Mounting Screw on the secondary sections in the prescribed order as per the following figure. Figure 5-24 Screwed joint sequence of 1FN3 secondary sections WARNING There is a high risk of crushing fingers etc. when handling unpacked secondary sections! Secondary sections and materials that can be magnetized can suddenly slam together unintentionally.
Page 154 Configuration 5.4 Mounting 1FN3… Combi distributor Cover end piece If you use the heatsink profiles with plug-type coupling, you must proceed as follows: 1. At first, only fix the heatsink profiles with a few screws so that all threads in the machine bed are visible.
Page 155 Configuration 5.4 Mounting Figure 5-25 Position of the heatsink profiles and combi distributors (illustration without fastening screws) Assembly of the secondary section cover The secondary section cover protects the secondary section track. The installation method depends on the type of cover. The following two variants are available: ●...
Page 156 Configuration 5.4 Mounting 6. Starting from the mark, place the other half of the cover band onto the secondary sections. 7. Push the slide over the covered secondary sections. The magnetic forces are taken up by the guides. 8. Carefully lift the cover band from the machine frame. 9.
Page 157 Configuration 5.4 Mounting The following figures show Steps 1 and 3. Figure 5-26 Mounting of the first segment of the segmented secondary section cover Figure 5-27 Mounting of a further segment of the segmented secondary section cover Note Arranging segments of the cover If you arrange the butt joints of the cover segments so that they are offset from the butt joints of the secondary sections, the secondary section track will be better protected against dust.
Page 158 Configuration 5.4 Mounting This offset is achieved when the cover segments at the ends of the secondary section track have a (n+0.5) length instead of the integral length of the secondary sections, see following figure. Example: Segment position of the segmented secondary section cover If you want to remove the segmented secondary section cover, you must raise the segments on one side transversely to the traversing direction as per the following figure.
Page 159 Configuration 5.4 Mounting Assembling the primary section Force fit the primary section and screw it on to the back of the primary section via the threaded holes. Make sure that the terminal end of the primary section usually points in the same direction as the north pole mark "N"...
Page 160: Cooler Connection
Configuration 5.4 Mounting Figure 5-29 Specified dimension for mounting the Hall sensor box (HSB) The Hall sensor box cable is trailable and can therefore be integrated into cable carriers. 5.4.6 Cooler connection Connection system Please note the following for the connection of the cooling system: ●...
Page 161 Configuration 5.4 Mounting Properties and attributes of the sealants used: ● Viton: resistant to temperature and glycol ● Perbunan: up to water temperatures of 80 °C ● Ethylene-propylene: resistant to temperature and glycol Note Recommended manufacturers You will find recommended manufacturers for the connecting parts for the cooling in the appendix.
Page 162: Secondary Section Cooling Connection
Configuration 5.4 Mounting 5.4.6.2 Secondary section cooling connection Connection options For motors of the 1FN3 product family, you can use secondary section end pieces for the flow and return lines of the secondary section cooling system. If the continuous secondary section cover is not used, you can also connect the plastic hoses directly to the heatsink profiles using hose connector nipples.
Page 163 Direct connection To connect plastic hoses directly, you can order heatsink profiles with hose connector nipples from Siemens. The inside diameter of the hose must be 5 mm. Connect the hose and the hose connector nipple with a hose clamp.
Page 164: Checking The Work Carried Out
Configuration 5.4 Mounting 5.4.7 Checking the work carried out WARNING Risk of electric shock Voltage is induced at the power connections of the primary section each time a primary section moves with respect to a secondary section – and vice versa. If you touch the power connections you may suffer an electric shock.
Page 165: Check Of The Air Gap Height
Configuration 5.4 Mounting 5.4.7.2 Check of the air gap height Note Installation dimension and air gap The installation dimension must lie within the specified tolerances along the entire traversing path. If the installation dimension matches, the correct air gap height will automatically result. If, however, the installation dimension matches, but the correct air gap height does not result, there is generally an installation error.
Page 166 Configuration 5.4 Mounting 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 167: Technical Data And Characteristics
Technical data and characteristics The technical data and characteristics for the 1FN3 linear motors are stated in this chapter. This data collection provides the motor data required for configuration and contains a number of additional data for more detailed calculations for detailed analyses and problem analyses.
Page 168: Explanations
Technical data and characteristics 6.1 Explanations Explanations 6.1.1 Explanations of the formula abbreviations Data sheet contents The data contained in the data sheets are explained in the following and divided as follows: ● General conditions ● Data at the rated point ●...
Page 169 Technical data and characteristics 6.1 Explanations Limit data Maximum force of the motor (according to data sheet) Maximum force of the duty cycle that the motor must produce L,MAX Maximum current of the motor at maximum force F Maximum velocity up to which the motor can deliver the maximum force F MAX,FMAX Electric power drawn by the motor at point (F ) at rated temperature T...
Page 170 Technical data and characteristics 6.1 Explanations Physical constants Force constant of the motor with a rated air gap and a secondary section temperature of 20 °C. F,20 Comment: The force constant refers to the linear (lower) section of the motor force-current characteristic.
Page 171 Technical data and characteristics 6.1 Explanations Primary section main cooler data Maximum thermal output dissipated through the main cooler when utilizing rated force F and at the P,H,MAX rated temperature T V̇ Recommended minimum volume flow rate through the main cooler to achieve the rated force F P ,H,MIN ΔT Temperature rise of the coolant between the flow and return lines of the main cooler at the operating...
Page 172: Explanations Of The Characteristic Curves
Technical data and characteristics 6.1 Explanations 6.1.2 Explanations of the characteristic curves Motor force vs. velocity The diagrams for motor force F for each of the motors include three characteristics for various DC link voltages U or converter output voltages U See also the table below a max.
Page 173 Technical data and characteristics 6.1 Explanations Short-circuit braking force vs. velocity The characteristic curve below shows the short-circuit braking force F of the motor as a function of the velocity v by way of example. Any friction that occurs is ignored. Figure 6-4 Short-circuit braking force F versus velocity v, example...
Page 174 Technical data and characteristics 6.1 Explanations Pressure drop across the coolers with respect to the flow rate The following characteristic curve shows the pressure drop Δpbetween the flow and return of the primary section main cooler as a function of the volume flow rate by way of example.
Page 175 Technical data and characteristics 6.1 Explanations The following characteristic curves show the pressure drop Δp between the flow and return of the individual components of the standard secondary section cooling with a combi distributor as a function of the volume flow rate by way of example.
Page 176: Data Sheets And Characteristics
Technical data and characteristics 6.2 Data sheets and characteristics Data sheets and characteristics 6.2.1 1FN3050-xxxxx-xxxx Data sheet of 1FN3050-1ND00-0xAx 1FN3050-1ND00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 2.82...
Page 177 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3050-1ND00-0xAx Technical data Designation Unit Value Primary section main cooler data Maximum dissipated thermal output 0.142 P,H,MAX V̇ Recommended minimum volume flow rate l/min P ,H,MIN ΔT Coolant temperature rise 0.97 Δp Pressure drop 0.359...
Page 178 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3050-1ND00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 179 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3050-2WC00-0xAx 1FN3050-2WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 2.72 Maximum velocity at rated force m/min...
Page 180 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3050-2WC00-0xAx Technical data Designation Unit Value Primary section precision cooler data Maximum dissipated thermal output 0.0072 P,P,MAX V̇ Recommended minimum volume flow rate l/min P ,P,MIN Δp Pressure drop 0.0778 Secondary section cooling data Maximum dissipated thermal output 0.0231 S,MAX...
Page 181 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3050-2WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 182 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3050-2NB80-0xAx 1FN3050-2NB80-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 2.82 Maximum velocity at rated force m/min...
Page 183 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3050-2NB80-0xAx Technical data Designation Unit Value Primary section precision cooler data Maximum dissipated thermal output 0.00833 P,P,MAX V̇ Recommended minimum volume flow rate l/min P ,P,MIN Δp Pressure drop 0.0772 Secondary section cooling data Maximum dissipated thermal output 0.0279 S,MAX...
Page 184 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3050-2NB80-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 185 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3050-2NE00-0xAx 1FN3050-2NE00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 5.65 Maximum velocity at rated force m/min...
Page 186 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3050-2NE00-0xAx Technical data Designation Unit Value Primary section precision cooler data Maximum dissipated thermal output 0.00833 P,P,MAX V̇ Recommended minimum volume flow rate l/min P ,P,MIN Δp Pressure drop 0.0772 Secondary section cooling data Maximum dissipated thermal output 0.0279 S,MAX...
Page 187 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3050-2NE00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 188: 1Fn3100-Xxxxx-Xxxx
Technical data and characteristics 6.2 Data sheets and characteristics 6.2.2 1FN3100-xxxxx-xxxx Data sheet of 1FN3100-1WC00-0xAx 1FN3100-1WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 2.44 Maximum velocity at rated force...
Page 189 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3100-1WC00-0xAx Technical data Designation Unit Value Primary section precision cooler data Maximum dissipated thermal output P,P,MAX V̇ Recommended minimum volume flow rate l/min P ,P,MIN Δp Pressure drop Secondary section cooling data Maximum dissipated thermal output 0.0226 S,MAX...
Page 190 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3100-1WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 191 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3100-1NC00-0xAx 1FN3100-1NC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 2.82 Maximum velocity at rated force m/min...
Page 192 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3100-1NC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0222 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0393 Δp Pressure drop per combi distributor...
Page 193 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3100-1NC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 194 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3100-2WC00-0xAx 1FN3100-2WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 5.08 Maximum velocity at rated force m/min...
Page 195 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3100-2WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0421 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0393 Δp Pressure drop per combi distributor...
Page 196 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3100-2WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 197 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3100-2WE00-0xAx 1FN3100-2WE00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 8.04 Maximum velocity at rated force m/min...
Page 198 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3100-2WE00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0421 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0393 Δp Pressure drop per combi distributor...
Page 199 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3100-2WE00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 200 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3100-2WJ20-0xAx 1FN3100-2WJ20-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 14.4 Maximum velocity at rated force m/min...
Page 201 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3100-2WJ20-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0422 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0393 Δp Pressure drop per combi distributor...
Page 202 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3100-2WJ20-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 203 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3100-2NC80-0xAx 1FN3100-2NC80-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 7.96 Maximum velocity at rated force m/min...
Page 204 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3100-2NC80-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0442 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0393 Δp Pressure drop per combi distributor...
Page 205 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3100-2NC80-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 206 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3100-3WC00-0xAx 1FN3100-3WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 7.18 Maximum velocity at rated force m/min...
Page 207 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3100-3WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0629 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0393 Δp Pressure drop per combi distributor...
Page 208 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3100-3WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 209 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3100-3WE00-0xAx 1FN3100-3WE00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 12.1 Maximum velocity at rated force m/min...
Page 210 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3100-3WE00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0629 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0393 Δp Pressure drop per combi distributor...
Page 211 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3100-3WE00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 212 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3100-4WC00-0xAx 1FN3100-4WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 10.2 Maximum velocity at rated force m/min...
Page 213 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3100-4WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0839 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0393 Δp Pressure drop per combi distributor...
Page 214 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3100-4WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 215 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3100-4WE00-0xAx 1FN3100-4WE00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 16.1 Maximum velocity at rated force m/min...
Page 216 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3100-4WE00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.084 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0393 Δp Pressure drop per combi distributor...
Page 217 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3100-4WE00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 218 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3100-3NA80-0xAx 1FN3100-3NA80-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 4.52 Maximum velocity at rated force m/min...
Page 219 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3100-3NA80-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0663 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0393 Δp Pressure drop per combi distributor...
Page 220 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3100-3NA80-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 221 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3100-3NC00-0xAx 1FN3100-3NC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 8.47 Maximum velocity at rated force m/min...
Page 222 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3100-3NC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0662 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0393 Δp Pressure drop per combi distributor...
Page 223 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3100-3NC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 224 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3100-5WC00-0xAx 1FN3100-5WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1120 Rated current Maximum velocity at rated force m/min...
Page 225 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3100-5WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.101 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0393 Δp Pressure drop per combi distributor...
Page 226 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3100-5WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 227 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3100-4NC80-0xAx 1FN3100-4NC80-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1210 Rated current 15.9 Maximum velocity at rated force...
Page 228 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3100-4NC80-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0881 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0393 Δp Pressure drop per combi distributor...
Page 229 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3100-4NC80-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 230: 1Fn3150-Xxxxx-Xxxx
Technical data and characteristics 6.2 Data sheets and characteristics 6.2.3 1FN3150-xxxxx-xxxx Data sheet of 1FN3150-1WC00-0xAx 1FN3150-1WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 3.58 Maximum velocity at rated force...
Page 231 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3150-1WC00-0xAx Technical data Designation Unit Value Primary section precision cooler data Maximum dissipated thermal output P,P,MAX V̇ Recommended minimum volume flow rate l/min P ,P,MIN Δp Pressure drop Secondary section cooling data Maximum dissipated thermal output 0.0283 S,MAX...
Page 232 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3150-1WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 233 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3150-1WE00-0xAx 1FN3150-1WE00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 6.41 Maximum velocity at rated force m/min...
Page 234 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3150-1WE00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0284 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0482 Δp Pressure drop per combi distributor...
Page 235 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3150-1WE00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 236 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3150-1NC20-0xAx 1FN3150-1NC20-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 4.52 Maximum velocity at rated force m/min...
Page 237 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3150-1NC20-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0301 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0482 Δp Pressure drop per combi distributor...
Page 238 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3150-1NC20-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 239 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3150-2WC00-0xAx 1FN3150-2WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 7.16 Maximum velocity at rated force m/min...
Page 240 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3150-2WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0564 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0482 Δp Pressure drop per combi distributor...
Page 241 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3150-2WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 242 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3150-2NB80-0xAx 1FN3150-2NB80-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 7.96 Maximum velocity at rated force m/min...
Page 243 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3150-2NB80-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0598 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0482 Δp Pressure drop per combi distributor...
Page 244 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3150-2NB80-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 245 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3150-3WC00-0xAx 1FN3150-3WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1010 Rated current 10.7 Maximum velocity at rated force...
Page 246 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3150-3WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0845 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0482 Δp Pressure drop per combi distributor...
Page 247 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3150-3WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 248 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3150-4WC00-0xAx 1FN3150-4WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1350 Rated current 14.3 Maximum velocity at rated force...
Page 249 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3150-4WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.113 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0482 Δp Pressure drop per combi distributor...
Page 250 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3150-4WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 251 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3150-3NB80-0xAx 1FN3150-3NB80-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1360 Rated current 11.9 Maximum velocity at rated force...
Page 252 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3150-3NB80-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0896 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0482 Δp Pressure drop per combi distributor...
Page 253 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3150-3NB80-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 254 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3150-3NC70-0xAx 1FN3150-3NC70-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1360 Rated current 16.9 Maximum velocity at rated force...
Page 255 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3150-3NC70-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0898 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0482 Δp Pressure drop per combi distributor...
Page 256 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3150-3NC70-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 257 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3150-5WC00-0xAx 1FN3150-5WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1690 Rated current 17.9 Maximum velocity at rated force...
Page 258 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3150-5WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.141 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0482 Δp Pressure drop per combi distributor...
Page 259 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3150-5WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 260 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3150-4NB80-0xAx 1FN3150-4NB80-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1810 Rated current 15.9 Maximum velocity at rated force...
Page 261 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3150-4NB80-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.119 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0482 Δp Pressure drop per combi distributor...
Page 262 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3150-4NB80-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 263: 1Fn3300-Xxxxx-Xxxx
Technical data and characteristics 6.2 Data sheets and characteristics 6.2.4 1FN3300-xxxxx-xxxx Data sheet of 1FN3300-1WC00-0xAx 1FN3300-1WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 6.47 Maximum velocity at rated force...
Page 264 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3300-1WC00-0xAx Technical data Designation Unit Value Primary section precision cooler data Maximum dissipated thermal output P,P,MAX V̇ Recommended minimum volume flow rate l/min P ,P,MIN Δp Pressure drop Secondary section cooling data Maximum dissipated thermal output 0.0378 S,MAX...
Page 265 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3300-1WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 266 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3300-1NC10-0xAx 1FN3300-1NC10-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force Rated current 8.12 Maximum velocity at rated force m/min...
Page 267 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3300-1NC10-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0446 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0724 Δp Pressure drop per combi distributor...
Page 268 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3300-1NC10-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 269 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3300-2WB00-0xAx 1FN3300-2WB00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1220 Rated current 7.96 Maximum velocity at rated force...
Page 270 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3300-2WB00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0714 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0923 Δp Pressure drop per combi distributor...
Page 271 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3300-2WB00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 272 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3300-2WC00-0xAx 1FN3300-2WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1230 Rated current 12.6 Maximum velocity at rated force...
Page 273 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3300-2WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0716 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0923 Δp Pressure drop per combi distributor...
Page 274 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3300-2WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 275 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3300-2WG00-0xAx 1FN3300-2WG00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1230 Rated current 32.4 Maximum velocity at rated force...
Page 276 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3300-2WG00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0682 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0923 Δp Pressure drop per combi distributor...
Page 277 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3300-2WG00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 278 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3300-2NC10-0xAx 1FN3300-2NC10-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1730 Rated current 16.2 Maximum velocity at rated force...
Page 279 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3300-2NC10-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0889 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0923 Δp Pressure drop per combi distributor...
Page 280 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3300-2NC10-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 281 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3300-2NH00-0xAx 1FN3300-2NH00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1730 Rated current 49.9 Maximum velocity at rated force...
Page 282 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3300-2NH00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.0952 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0923 Δp Pressure drop per combi distributor...
Page 283 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3300-2NH00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 284 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3300-3WC00-0xAx 1FN3300-3WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1840 Rated current 19.2 Maximum velocity at rated force...
Page 285 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3300-3WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.111 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.114 Δp Pressure drop per combi distributor...
Page 286 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3300-3WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 287 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3300-3WG00-0xAx 1FN3300-3WG00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1840 Rated current 49.4 Maximum velocity at rated force...
Page 288 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3300-3WG00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.105 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.114 Δp Pressure drop per combi distributor...
Page 289 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3300-3WG00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 290 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3300-4WB00-0xAx 1FN3300-4WB00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2450 Rated current Maximum velocity at rated force m/min...
Page 291 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3300-4WB00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.143 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.138 Δp Pressure drop per combi distributor...
Page 292 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3300-4WB00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 293 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3300-4WC00-0xAx 1FN3300-4WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2450 Rated current 25.3 Maximum velocity at rated force...
Page 294 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3300-4WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.144 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.138 Δp Pressure drop per combi distributor...
Page 295 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3300-4WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 296 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3300-3NB50-0xAx 1FN3300-3NB50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2590 Rated current 17.7 Maximum velocity at rated force...
Page 297 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3300-3NB50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.134 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.114 Δp Pressure drop per combi distributor...
Page 298 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3300-3NB50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 299 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3300-3NC40-0xAx 1FN3300-3NC40-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2590 Rated current 27.3 Maximum velocity at rated force...
Page 300 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3300-3NC40-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.133 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.114 Δp Pressure drop per combi distributor...
Page 301 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3300-3NC40-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 302 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3300-4NB80-0xAx 1FN3300-4NB80-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 3460 Rated current 28.4 Maximum velocity at rated force...
Page 303 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3300-4NB80-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.179 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.138 Δp Pressure drop per combi distributor...
Page 304 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3300-4NB80-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 305: 1Fn3450-Xxxxx-Xxxx
Technical data and characteristics 6.2 Data sheets and characteristics 6.2.5 1FN3450-xxxxx-xxxx Data sheet of 1FN3450-1NB50-0xAx 1FN3450-1NB50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1300 Rated current Maximum velocity at rated force...
Page 306 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-1NB50-0xAx Technical data Designation Unit Value Primary section precision cooler data Maximum dissipated thermal output 0.0182 P,P,MAX V̇ Recommended minimum volume flow rate l/min P ,P,MIN Δp Pressure drop 0.19 Secondary section cooling data Maximum dissipated thermal output 0.0609 S,MAX...
Page 307 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3450-1NB50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 308 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-2WA50-0xAx 1FN3450-2WA50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1930 Rated current 8.91 Maximum velocity at rated force...
Page 309 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-2WA50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.123 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0923 Δp Pressure drop per combi distributor...
Page 310 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-2WA50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 311 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-2WB70-0xAx 1FN3450-2WB70-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1930 Rated current 16.2 Maximum velocity at rated force...
Page 312 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-2WB70-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.125 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0923 Δp Pressure drop per combi distributor...
Page 313 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-2WB70-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 314 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-2WC00-0xAx 1FN3450-2WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1930 Rated current Maximum velocity at rated force m/min...
Page 315 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-2WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.125 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0923 Δp Pressure drop per combi distributor...
Page 316 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-2WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 317 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-2WD00-0xAx 1FN3450-2WD00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1930 Rated current Maximum velocity at rated force m/min...
Page 318 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-2WD00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.113 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0923 Δp Pressure drop per combi distributor...
Page 319 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-2WD00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 320 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-2WE00-0xAx 1FN3450-2WE00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 1930 Rated current 36.3 Maximum velocity at rated force...
Page 321 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-2WE00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.117 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0923 Δp Pressure drop per combi distributor...
Page 322 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-2WE00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 323 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-2NB40-0xAx 1FN3450-2NB40-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2590 Rated current 16.2 Maximum velocity at rated force...
Page 324 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-2NB40-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.121 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0923 Δp Pressure drop per combi distributor...
Page 325 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-2NB40-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 326 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-2NB80-0xAx 1FN3450-2NB80-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2590 Rated current 20.4 Maximum velocity at rated force...
Page 327 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-2NB80-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.122 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0923 Δp Pressure drop per combi distributor...
Page 328 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-2NB80-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 329 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-2NC50-0xAx 1FN3450-2NC50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2590 Rated current 28.4 Maximum velocity at rated force...
Page 330 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-2NC50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.122 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0923 Δp Pressure drop per combi distributor...
Page 331 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-2NC50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 332 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-3WA50-0xAx 1FN3450-3WA50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2900 Rated current 12.9 Maximum velocity at rated force...
Page 333 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-3WA50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.17 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.114 Δp Pressure drop per combi distributor...
Page 334 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-3WA50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 335 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-3WB00-0xAx 1FN3450-3WB00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2900 Rated current 17.9 Maximum velocity at rated force...
Page 336 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-3WB00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.168 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.114 Δp Pressure drop per combi distributor...
Page 337 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-3WB00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 338 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-3WB50-0xAx 1FN3450-3WB50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2900 Rated current 22.9 Maximum velocity at rated force...
Page 339 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-3WB50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.167 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.114 Δp Pressure drop per combi distributor...
Page 340 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-3WB50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 341 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-3WC00-0xAx 1FN3450-3WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2900 Rated current 28.3 Maximum velocity at rated force...
Page 342 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-3WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.166 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.114 Δp Pressure drop per combi distributor...
Page 343 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-3WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 344 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-3WE00-0xAx 1FN3450-3WE00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2900 Rated current 51.3 Maximum velocity at rated force...
Page 345 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-3WE00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.156 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.114 Δp Pressure drop per combi distributor...
Page 346 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-3WE00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 347 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-4WB00-0xAx 1FN3450-4WB00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 3860 Rated current 23.8 Maximum velocity at rated force...
Page 348 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-4WB00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.221 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.138 Δp Pressure drop per combi distributor...
Page 349 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-4WB00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 350 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-4WB50-0xAx 1FN3450-4WB50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 3860 Rated current 30.3 Maximum velocity at rated force...
Page 351 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-4WB50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.22 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.138 Δp Pressure drop per combi distributor...
Page 352 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-4WB50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 353 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-4WC00-0xAx 1FN3450-4WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 3860 Rated current 37.6 Maximum velocity at rated force...
Page 354 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-4WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.218 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.138 Δp Pressure drop per combi distributor...
Page 355 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-4WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 356 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-4WE00-0xAx 1FN3450-4WE00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 3860 Rated current Maximum velocity at rated force m/min...
Page 357 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-4WE00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.206 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.138 Δp Pressure drop per combi distributor...
Page 358 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-4WE00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 359 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-3NA50-0xAx 1FN3450-3NA50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 3890 Rated current 12.7 Maximum velocity at rated force...
Page 360 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-3NA50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.183 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.114 Δp Pressure drop per combi distributor...
Page 361 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3450-3NA50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 362 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-3NB50-0xAx 1FN3450-3NB50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 3890 Rated current 27.3 Maximum velocity at rated force...
Page 363 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-3NB50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.182 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.114 Δp Pressure drop per combi distributor...
Page 364 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-3NB50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 365 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-3NC50-0xAx 1FN3450-3NC50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 3890 Rated current 42.5 Maximum velocity at rated force...
Page 366 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-3NC50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.183 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.114 Δp Pressure drop per combi distributor...
Page 367 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-3NC50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 368 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-4NB20-0xAx 1FN3450-4NB20-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 5190 Rated current 28.4 Maximum velocity at rated force...
Page 369 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-4NB20-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.244 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.138 Δp Pressure drop per combi distributor...
Page 370 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3450-4NB20-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 371 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3450-4NB80-0xAx 1FN3450-4NB80-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 5190 Rated current 40.8 Maximum velocity at rated force...
Page 372 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3450-4NB80-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.243 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.138 Δp Pressure drop per combi distributor...
Page 373 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3450-4NB80-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 374: 1Fn3600-Xxxxx-Xxxx
Technical data and characteristics 6.2 Data sheets and characteristics 6.2.6 1FN3600-xxxxx-xxxx Data sheet of 1FN3600-2WA50-0xAx 1FN3600-2WA50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2610 Rated current 13.2...
Page 375 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-2WA50-0xAx Technical data Designation Unit Value Primary section precision cooler data Maximum dissipated thermal output 0.0573 P,P,MAX V̇ Recommended minimum volume flow rate l/min P ,P,MIN Δp Pressure drop 0.839 Secondary section cooling data Maximum dissipated thermal output 0.184 S,MAX...
Page 376 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3600-2WA50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 377 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-2WB00-0xAx 1FN3600-2WB00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2610 Rated current 16.8 Maximum velocity at rated force...
Page 378 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-2WB00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.183 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0165 Δp Pressure drop per combi distributor...
Page 379 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3600-2WB00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 380 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-2WB50-0xAx 1FN3600-2WB50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2610 Rated current 22.3 Maximum velocity at rated force...
Page 381 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-2WB50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.176 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0165 Δp Pressure drop per combi distributor...
Page 382 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3600-2WB50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 383 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-2WC00-0xAx 1FN3600-2WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 2610 Rated current 26.1 Maximum velocity at rated force...
Page 384 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-2WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.164 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0165 Δp Pressure drop per combi distributor...
Page 385 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3600-2WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 386 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-2NB00-0xAx 1FN3600-2NB00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 3460 Rated current 16.2 Maximum velocity at rated force...
Page 387 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-2NB00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.164 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0165 Δp Pressure drop per combi distributor...
Page 388 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3600-2NB00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 389 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-2NB80-0xAx 1FN3600-2NB80-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 3460 Rated current 28.4 Maximum velocity at rated force...
Page 390 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-2NB80-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.165 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0165 Δp Pressure drop per combi distributor...
Page 391 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3600-2NB80-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 392 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-2NE50-0xAx 1FN3600-2NE50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 3460 Rated current 64.2 Maximum velocity at rated force...
Page 393 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-2NE50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.181 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0165 Δp Pressure drop per combi distributor...
Page 394 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3600-2NE50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 395 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-3WB50-0xAx 1FN3600-3WB50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 3910 Rated current 32.9 Maximum velocity at rated force...
Page 396 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-3WB50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.255 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0234 Δp Pressure drop per combi distributor...
Page 397 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3600-3WB50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 398 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-3WB00-0xAx 1FN3600-3WB00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 3920 Rated current 24.8 Maximum velocity at rated force...
Page 399 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-3WB00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.265 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0234 Δp Pressure drop per combi distributor...
Page 400 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3600-3WB00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 401 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-3WC00-0xAx 1FN3600-3WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 3920 Rated current 38.4 Maximum velocity at rated force...
Page 402 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-3WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.237 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0234 Δp Pressure drop per combi distributor...
Page 403 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3600-3WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 404 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-3NB00-0xAx 1FN3600-3NB00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 5190 Rated current 30.6 Maximum velocity at rated force...
Page 405 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-3NB00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.246 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0234 Δp Pressure drop per combi distributor...
Page 406 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3600-3NB00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 407 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-3NB80-0xAx 1FN3600-3NB80-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 5190 Rated current 42.5 Maximum velocity at rated force...
Page 408 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-3NB80-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.246 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0234 Δp Pressure drop per combi distributor...
Page 409 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3600-3NB80-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 410 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-4WA30-0xAx 1FN3600-4WA30-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 5220 Rated current 22.3 Maximum velocity at rated force...
Page 411 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-4WA30-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.325 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0272 Δp Pressure drop per combi distributor...
Page 412 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3600-4WA30-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 413 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-4WB00-0xAx 1FN3600-4WB00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 5220 Rated current 31.5 Maximum velocity at rated force...
Page 414 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-4WB00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.321 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0272 Δp Pressure drop per combi distributor...
Page 415 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3600-4WB00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 416 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-4WB50-0xAx 1FN3600-4WB50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 5220 Rated current 41.8 Maximum velocity at rated force...
Page 417 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-4WB50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.308 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0272 Δp Pressure drop per combi distributor...
Page 418 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3600-4WB50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 419 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-4WC00-0xAx 1FN3600-4WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 5220 Rated current 48.8 Maximum velocity at rated force...
Page 420 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-4WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.287 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0272 Δp Pressure drop per combi distributor...
Page 421 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3600-4WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 422 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-4WD30-0xAx 1FN3600-4WD30-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 5220 Rated current 70.7 Maximum velocity at rated force...
Page 423 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-4WD30-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.299 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0272 Δp Pressure drop per combi distributor...
Page 424 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3600-4WD30-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 425 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-5WB00-0xAx 1FN3600-5WB00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 6530 Rated current 42.7 Maximum velocity at rated force...
Page 426 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-5WB00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.471 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0313 Δp Pressure drop per combi distributor...
Page 427 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3600-5WB00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 428 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-4NA70-0xAx 1FN3600-4NA70-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 6920 Rated current 26.3 Maximum velocity at rated force...
Page 429 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-4NA70-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.327 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0272 Δp Pressure drop per combi distributor...
Page 430 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3600-4NA70-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 431 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3600-4NB80-0xAx 1FN3600-4NB80-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 6920 Rated current 56.7 Maximum velocity at rated force...
Page 432 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3600-4NB80-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.328 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0272 Δp Pressure drop per combi distributor...
Page 433 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3600-4NB80-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 434: 1Fn3900-Xxxxx-Xxxx
Technical data and characteristics 6.2 Data sheets and characteristics 6.2.7 1FN3900-xxxxx-xxxx Data sheet of 1FN3900-2WB00-0xAx 1FN3900-2WB00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 4050 Rated current 25.5...
Page 435 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3900-2WB00-0xAx Technical data Designation Unit Value Primary section precision cooler data Maximum dissipated thermal output 0.0687 P,P,MAX V̇ Recommended minimum volume flow rate l/min P ,P,MIN Δp Pressure drop 1.28 Secondary section cooling data Maximum dissipated thermal output 0.221 S,MAX...
Page 436 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3900-2WB00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 437 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3900-2WC00-0xAx 1FN3900-2WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 4050 Rated current Maximum velocity at rated force m/min...
Page 438 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3900-2WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.23 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0234 Δp Pressure drop per combi distributor...
Page 439 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3900-2WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 440 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3900-2NB20-0xAx 1FN3900-2NB20-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 5190 Rated current 28.4 Maximum velocity at rated force...
Page 441 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3900-2NB20-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.232 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0234 Δp Pressure drop per combi distributor...
Page 442 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3900-2NB20-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 443 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3900-2NC80-0xAx 1FN3900-2NC80-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 5190 Rated current 64.2 Maximum velocity at rated force...
Page 444 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3900-2NC80-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.254 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0234 Δp Pressure drop per combi distributor...
Page 445 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3900-2NC80-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 446 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3900-3WB00-0xAx 1FN3900-3WB00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 6080 Rated current 40.6 Maximum velocity at rated force...
Page 447 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3900-3WB00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.371 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0272 Δp Pressure drop per combi distributor...
Page 448 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3900-3WB00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 449 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3900-3NB20-0xAx 1FN3900-3NB20-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 7780 Rated current 42.5 Maximum velocity at rated force...
Page 450 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3900-3NB20-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.349 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0272 Δp Pressure drop per combi distributor...
Page 451 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3900-3NB20-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 452 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3900-4WA50-0xAx 1FN3900-4WA50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 8100 Rated current 30.7 Maximum velocity at rated force...
Page 453 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3900-4WA50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.464 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0313 Δp Pressure drop per combi distributor...
Page 454 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3900-4WA50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 455 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3900-4WB00-0xAx 1FN3900-4WB00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 8100 Rated current 49.7 Maximum velocity at rated force...
Page 456 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3900-4WB00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.419 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0313 Δp Pressure drop per combi distributor...
Page 457 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3900-4WB00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 458 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3900-4WB50-0xAx 1FN3900-4WB50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 8100 Rated current 61.4 Maximum velocity at rated force...
Page 459 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3900-4WB50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.464 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0313 Δp Pressure drop per combi distributor...
Page 460 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3900-4WB50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 461 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3900-4WC00-0xAx 1FN3900-4WC00-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 8100 Rated current Maximum velocity at rated force m/min...
Page 462 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3900-4WC00-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.436 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0313 Δp Pressure drop per combi distributor...
Page 463 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3900-4WC00-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 464 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3900-4NA50-0xAx 1FN3900-4NA50-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 10400 Rated current 29.3 Maximum velocity at rated force...
Page 465 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3900-4NA50-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.462 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0313 Δp Pressure drop per combi distributor...
Page 466 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3900-4NA50-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 467 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3900-4NA80-0xAx 1FN3900-4NA80-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 10400 Rated current 40.8 Maximum velocity at rated force...
Page 468 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3900-4NA80-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.464 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0313 Δp Pressure drop per combi distributor...
Page 469 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics of 1FN3900-4NA80-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 470 Technical data and characteristics 6.2 Data sheets and characteristics Data sheet of 1FN3900-4NB20-0xAx 1FN3900-4NB20-0xAx Technical data Designation Unit Value General conditions DC-link voltage Water cooling flow temperature °C VORL Rated temperature °C Data at the rated point Rated force 10400 Rated current 56.7 Maximum velocity at rated force...
Page 471 Technical data and characteristics 6.2 Data sheets and characteristics 1FN3900-4NB20-0xAx Technical data Designation Unit Value Secondary section cooling data Maximum dissipated thermal output 0.464 S,MAX V̇ Recommended minimum volume flow rate l/min S ,MIN Δp Pressure drop per meter of heatsink profile 0.0313 Δp Pressure drop per combi distributor...
Page 472 Technical data and characteristics 6.2 Data sheets and characteristics Characteristics for 1FN3900-4NB20-0xAx 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 473: Additional Characteristic Curves
Technical data and characteristics 6.2 Data sheets and characteristics 6.2.8 Additional characteristic curves The attraction force F between the primary section and the secondary section track depends on the air gap. The variable F listed in the motor data sheets refers to the nominal air gap.
Page 474 Technical data and characteristics 6.2 Data sheets and characteristics The motor force F depends on the air gap. The variables F and F stated in the motor data sheets refer to the nominal air gap. The following diagram shows the relative variation of the two motor forces as a function of the air gap.
Page 475: Preparation For Use
Preparation for use WARNING Risk of death and crushing as a result of permanent magnet fields Severe injury and material damage can result if you do not take into consideration the safety instructions relating to the permanent magnet fields of the secondary sections. •...
Page 476: Transporting
Preparation for use 7.1 Transporting Note Original packaging Keep the packaging of components with permanent magnets where possible! When reusing the original packaging do not cover safety instructions that are possibly attached. When required, use transparent adhesive tape for the packaging. Transporting Note UN number for permanent magnets...
Page 477: Packaging Specifications For Air Transportation
Preparation for use 7.1 Transporting Table 7- 2 Biological ambient conditions Transportation: Class 2B1 Table 7- 3 Chemical ambient conditions Transportation: Class 2C1 Table 7- 4 Mechanically active ambient conditions Transportation: Class 2S2 Table 7- 5 Mechanical ambient conditions Transportation: Class 2M2 7.1.2 Packaging specifications for air transportation...
Page 478 Preparation for use 7.1 Transporting To achieve mutual optimal weakening of the magnetic fields (magnetic interference fields) the original and individual packaging of two secondary sections must always be stacked on one another in pairs, alternating according to the following diagram. In each case, edge A-B of the lower individual package must be placed on the edge C-D of the upper individual package.
Page 479 Preparation for use 7.1 Transporting Table 7- 6 Packaging specifications for 1FN3xxx-xSxxx-xxxx secondary sections Not subject to notification Subject to notification and Subject to authorization and labeling requirements labeling requirements A single secondary section is packaged in its original individual packaging Two secondary sections each are packaged in the original individual packaging...
Page 480: Lifting Primary Sections
Preparation for use 7.1 Transporting 7.1.3 Lifting primary sections NOTICE Damage to the primary section when incorrectly lifted Improper use of lifting equipment and slings can lead to permanent deformation and damage to the primary section. • Always ensure the primary section is horizontal when lifting and transporting it. •...
Page 481: Storage
Preparation for use 7.2 Storage Figure 7-2 Correct lifting of primary sections Storage 7.2.1 Ambient conditions for long-term storage Based on DIN EN 60721-3-1 (for long-term storage) Table 7- 7 Climatic ambient conditions Lower air temperature limit: - 5 °C (deviates from 3K3) Upper air temperature limit: + 40 °C Lower relative humidity limit:...
Page 482: Storage In Rooms And Protection Against Humidity
Preparation for use 7.2 Storage Table 7- 8 Biological ambient conditions Long-term storage: Class 1B1 Table 7- 9 Chemical ambient conditions Long-term storage: Class 1C1 Table 7- 10 Mechanically active ambient conditions Long-term storage: Class 1S2 Table 7- 11 Mechanical ambient conditions Long-term storage: Class 1M2 7.2.2...
Page 483 Preparation for use 7.2 Storage Protection against humidity If a dry storage area is not available, then take the following precautions: ● Wrap the motor in humidity-absorbent material. Then wrap it in foil so that it is air tight. ● Include several bags of desiccant in the sealed packaging. Check the desiccant and replace it as required.
Page 484 Preparation for use 7.2 Storage 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 485: Electrical Connection
Electrical connection NOTICE Destruction of the motor if it is directly connected to the three-phase line supply The motor will be destroyed if it is directly connected to the three-phase line supply. • Only operate the motors with the appropriately configured converters. WARNING Risk of electric shock If you connect the voltage to the primary section as individual component, then there is a...
Page 486 Electrical connection WARNING Risk of electric shock Voltage is induced at the power connections of the primary section each time a primary section moves with respect to a secondary section – and vice versa. When the motor is switched on, the power connections of the primary section are also live. If you touch the power connections you may suffer an electric shock.
Page 487: Permissible Line System Types
Electrical connection 8.1 Permissible line system types WARNING Electric shock caused by high leakage currents When touching conductive parts of the machine, high leakage currents can result in an electric shock. • For high leakage currents, observe the increased requirements placed on the protective conductor.
Page 488: Motor Circuit Diagram
Electrical connection 8.2 Motor circuit diagram When operated on IT line systems, a protective device should be provided that switches off the drive system in the case of a ground fault. In operation with a grounded external conductor, an isolating transformer with grounded neutral (secondary side) must be connected between the line supply and the drive system.
Page 489 Electrical connection 8.3 System integration To connect an absolute value encoder EnDat with 1 V , order designation EnDat01 or EnDat02, or SSI with 1 V , you require the SME125. To connect an incremental encoder (sin/cos 1 V ), you require the SME120. Figure 8-2 System integration with SME12x and separate signal and power cables (example) The following figure only applies to peak load motors.
Page 490 Electrical connection 8.3 System integration The following diagram shows an example of a motor integrated into a system with Temp-S and Temp-F connected via TM120. An incremental encoder (sin/cos 1 V ) or absolute encoder (EnDat with 1 V , order designation EnDat01 or EnDat02, or SSI with 1 V ) is connected via SMC20.
Page 491 • To dampen the oscillations we recommend the use of the associated Active Interface Module or an HFD reactor with damping resistor. For specific details, refer to the documentation of the drive system being used or contact your local Siemens office. Note The corresponding Active Interface Module or the appropriate HFD line reactor must be used to operate the Active Line Module controlled infeed unit.
Page 492: Sensor Module Sme12X
Electrical connection 8.3 System integration 8.3.2 Sensor Module SME12x Sensor Module External SME12x is a module to evaluate: ● Incremental encoders with sin/cos 1 V interface (SME120) ● Absolute encoders with EnDat interface (SME125) ● Temperature sensors The temperature sensors in the motor do not have safe electrical separation in order to achieve better thermal contact to the motor winding.
Page 493 Electrical connection 8.3 System integration Peak load motors from this series are also available with a combined cable. Connect the combined cable via a connection cover with PG cable gland on the terminal panel. Separate power and signal cables with their own connectors make electrical connection simpler, for example to a SME12x Sensor Module.
Page 494 EMC-compliant shield support. You will find the article numbers for these items in the catalog or on the Internet at https://eb.automation.siemens.com using the search term "MOTION-CONNECT". Separate power and temperature sensor cables This connection type is standard for peak and continuous load motors.
Page 495: Terminal Panel
Electrical connection 8.3 System integration Figure 8-8 PIN assignments of the plug-in connectors for power cables 8.3.6 Terminal panel Terminal panel and connector pin assignment Note Preassemble the cables before installing If the primary section is already installed, the terminal panel may be difficult to access. •...
Page 496 Electrical connection 8.3 System integration The following figures show the terminal assignment of the terminal panel for various peak load motor types. The terminal panel of peak load and continuous load motors is identical. The only difference is that the dimensions of the casing are larger on the continuous load motor.
Page 497 Electrical connection 8.3 System integration Figure 8-10 Terminal panel for the motors 1FN3300 to 1FN3900 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 498 Electrical connection 8.3 System integration Connection cover The terminal panel is sealed with degree of protection IP65 using a cover with connection thread. The following figure shows the different connection cover versions and their potential applications. Figure 8-11 Connection cover variants 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 499 Electrical connection 8.3 System integration Note Connection cover Connection covers for 1FN3300 - 900 with a "0" in the 16th position of the article number are not compatible with primary sections as of a serial number YFFNxxx. Always use the connection cover supplied with the associated seal. The supplied screws and the tightening torques are listed in following table.
Page 500: Power Connection
Connecting cables with conductor cross-sections of more than 16 mm is not possible at the motor terminal panel. If the rated current of a motor requires power conductors with a cross- section of 25 mm , please contact your local Siemens office. 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 501 At the following link you can find information in the Internet on the topic of "Influence of high- frequency currents on thermal overload trips of circuit breakers (3RV, 3VU) and overload relays (3RU, 3UA)" and "Additional effects that can result in false trips". FAQ entry ID: 24153083 http://support.automation.siemens.com/WW/llisapi.dll?func=cslib.csinfo&objid=24153083&no deid0=20358027&caller=view&lang=de&extranet=standard&viewreg=WW&u=NDAwMDAxN wAA&siteID=cseus 1FN3 linear motors...
Page 502: Signal Connection
Electrical connection 8.3 System integration 8.3.8 Signal connection No direct connection of the temperature monitoring circuits WARNING Risk of electric shock when incorrectly connecting the temperature monitoring circuit In the case of a fault, circuits Temp-S and Temp-F do not provide safe electrical separation with respect to the power components.
Page 503 Electrical connection 8.3 System integration Identification for cables with open conductor ends or ring-type lugs Identification for plug connections Figure 8-12 Connection variants for temperature sensors for the SINAMICS S120 drive system 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 504 Electrical connection 8.3 System integration Table 8- 5 Conductor assignments of the temperature sensor cables – Table A Conductor color Interface White -1R2: -KTY or Pt1000 black +1R1: +KTY or Pt1000 1TP1: PTC Yellow 1TP2: PTC Applies to permanently connected combination cable with open conductor ends for 1FN3050 Table 8- 6 Conductor assignments of the temperature sensor cables –...
Page 505 Electrical connection 8.3 System integration Temperature sensor connection – standard Connect the signal cable as follows: ● Using a plug connector at the SME12x (Sensor Module External) ● With open cable ends at the TM120 The SME12x or the TM120 is connected to the converter via DRIVE-CLiQ. See the diagrams for "System integration (Page 486)".
Page 506 Electrical connection 8.3 System integration Pin assignment of the temperature sensor – SME12x interface Figure 8-13 Pole layout of the temperature sensor – SME12x interface Table 8- 8 Pole layout of the temperature sensor – SME12x interface Conductor assignment for cable Sensor contact 6FX8002-2SL00- ..
Page 507 Electrical connection 8.3 System integration Connection of the temperature sensors via TM120 The terminal assignment for the channels of the temperature sensor inputs can be freely selected on the TM120. Table 8- 9 Terminal assignment for the temperature sensor inputs on the TM120 (example) Conductor assignment for cable Duct / clamp Sensor contact...
Page 508: Shielding, Grounding, And Equipotential Bonding
• Connect the power cable shield at the shield connection of the power module. Note Apply the EMC installation guideline of the converter manufacturer. For Siemens converters, this is available under document order No. 6FC5297-□AD30-0□P□. 1FN3 linear motors...
Page 509: Requirements For The Motor Supply Cables
Electrical connection 8.3 System integration 8.3.10 Requirements for the motor supply cables The cables must be appropriately selected corresponding to the mechanical forces caused by high rates of acceleration and speeds. Further, they must be suitable for the bending stresses that occur. Permissible motor feeder cable lengths The permissible length of the power cable between the motor and the infeed unit depends on the rated power or the rated output current of the infeed unit.
Page 510 Electrical connection 8.3 System integration Using the cables in the cable carrier Note When laying cables, carefully observe the instructions given by the cable carrier manufacturer! To maximize the service life of the cable carrier and cables, cables in the carrier made from different materials must be installed in the cable carrier with spacers.
Page 511: Assembly Drawings/Dimension Sheets
Assembly drawings/dimension sheets The following installation drawings apply to the peak load motor and the continuous load motor. There are extremely minimal construction differences between the two motor designs. These are negligible and have therefore been omitted in the installation drawings. The dimension variables and accompanying dimensioning tables ensure that the correct installation dimensions can be assigned to the respective motor.
Page 512: Position Tolerance For Mounting Holes
Assembly drawings/dimension sheets 9.1 Position tolerance for mounting holes Position tolerance for mounting holes Mounting holes The following figure shows the position tolerances according to DIN EN ISO 1101 of the mounting holes of the primary section and secondary section track. This information must be available at the user's installation location.
Page 513: Installation Dimensions
Assembly drawings/dimension sheets 9.2 Installation dimensions Installation dimensions Specifying the installation dimensions No individual tolerances are specified for the primary section and the secondary section. The tolerances for the primary and secondary sections are coordinated with the reference installation height of the complete motor. You therefore only have to consider the tolerances of the mounting height for the design.
Page 514: 1Fn3050, 1Fn3100, 1Fn3150
Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 1FN3050, 1FN3100, 1FN3150 9.3.1 1FN3050 Figure 9-2 Installation dimensions for 1FN3050 motor with one cable connection 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 515 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Figure 9-3 Installation dimensions for the 1FN3050 motor with one cable connection (cross sections and details) 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 516 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Figure 9-4 Installation dimensions for 1FN3050 motors with two cable connections 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 517 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Figure 9-5 Installation dimensions for 1FN3050 motors with two cable connections (cross sections and details) 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 518 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Dimensions of the peak load primary section 1FN3050 Size Variable Unit 1FN3050-... Length Longitudinal hole pattern 52.5 Total longitudinal hole pattern 157.5 Position 1st hole longitudinal pattern Position of the magnetically active surface Magnetically active length lP,AKT Main cooler connector position (width)
Page 519 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Dimensions of the continuous load primary section 1FN3050 Size Variable Unit 1FN3050-... Length of primary section Longitudinal hole pattern 52.5 52.5 Total longitudinal hole pattern 52.5 157.5 First hole position of longitudinal pattern Position of the magnetically active surface 155.6 260.6...
Page 520 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Dimensions of the secondary section of 1FN3050 Size Variable Unit 1FN3050-4SAxx Secondary section length Hole pattern (longitudinal) Total hole pattern (longitudinal) lS1 x (2xN2–1) First hole position of hole pattern (longitudinal) 31.3 Incline Width without heatsink profile Hole pattern (transverse) Width with heatsink profile...
Page 521: 1Fn3100, 1Fn3150
Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 9.3.2 1FN3100, 1FN3150 Figure 9-6 Installation dimensions for the motors 1FN3100 and 1 FN3150 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 522 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Figure 9-7 Installation dimensions for the motors 1FN3100 and 1FN3150 (cross sections and details) 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 523 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Dimensions of the peak load primary sections 1FN3100 Size Variable Unit 1FN3100-... Length without connection cover Longitudinal hole pattern 52.5 52.5 52.5 52.5 52.5 Total longitudinal hole pattern 52.5 157.5 262.5 367.5 472.5 Position 1st hole longitudinal pattern Position of the magnetically active surface Connection cover length...
Page 524 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Dimensions of the continuous load primary sections 1FN3100 Size Variable Unit 1FN3100-... Length without connection cover Longitudinal hole pattern 52.5 52.5 52.5 52.5 Total longitudinal hole pattern 52.5 157.5 262.5 367.5 Position 1st hole longitudinal pattern Position of the magnetically active surface 155.6 260.6...
Page 525 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Dimensions of the peak load primary sections 1FN3150 Size Variable Unit 1FN3150-... Length without connection cover Longitudinal hole pattern 52.5 52.5 52.5 52.5 52.5 Total longitudinal hole pattern 52.5 157.5 262.5 367.5 472.5 Position 1st hole longitudinal pattern Position of the magnetically active surface Connection cover length...
Page 526 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Dimensions of the continuous load primary sections 1FN3150 Size Variable Unit 1FN3150-... Length without connection cover Longitudinal hole pattern 52.5 52.5 52.5 52.5 Total longitudinal hole pattern 52.5 157.5 262.5 367.5 Position 1st hole longitudinal pattern Position of the magnetically active surface 155.6 260.6...
Page 527 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Dimensions of the secondary section of 1FN3100 Size Variable Unit 1FN3100-4SAxx Secondary section length Hole pattern (longitudinal) Total hole pattern (longitudinal) lS1 x (2xN2–1) First hole position of hole pattern (longitudinal) 30.6 Incline Width without heatsink profile Hole pattern (transverse) Width with heatsink profile...
Page 528 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Dimensions of the secondary section of 1FN3150 Size Variable Unit 1FN3150-4SAxx Secondary section length Hole pattern (longitudinal) Total hole pattern (longitudinal) lS1 x (2xN2–1) First hole position of hole pattern (longitudinal) 30.4 Incline Width without heatsink profile Hole pattern (transverse) Width with heatsink profile...
Page 529: Mounting The Hall Sensor Box
Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Dimensions of the secondary section end pieces of 1FN3150 Size Variable Unit 1FN3150-0TF00 1FN3150-0TC00 1FN3150-0TG00 1FN3150-0TJ00 Maximum length 42.5 42.5 Hole position (right) Hole distance to secondary section hole Maximum width G 1/8 cooler connector position (height) –...
Page 530 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Figure 9-9 Hall sensor box (HSB) with lateral cable outlet for motors 1FN3050, 1FN3100 and 1FN3150 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 531 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Mounting the Hall sensor box onto the continuous load motors 1FN3050 - 1FN3150 Figure 9-10 Mounting the Hall sensor box (HSB) with straight cable outlet for motors 1FN3050-xN … 150-xN 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 532 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Figure 9-11 Mounting the Hall sensor box (HSB) with lateral cable outlet for motors 1FN3050-xN … 150-xN 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 533: Heatsink Profiles
Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 9.3.4 Heatsink profiles Figure 9-12 Heatsink profile with plug-type coupling for motors with sizes 1FN3050, 1FN3100 and 1FN3150 Figure 9-13 Heatsink profile with hose connector nipple, right, for motors of sizes 1FN3050, 1FN3100 and 1FN3150, example 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 534 Assembly drawings/dimension sheets 9.3 1FN3050, 1FN3100, 1FN3150 Figure 9-14 Heatsink profile with hose connector nipple, left, for motors of sizes 1FN3050, 1FN3100 and 1FN3150, example 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 535: 1Fn3300, 1Fn3450
Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 1FN3300, 1FN3450 Figure 9-15 Installation dimensions for motors 1FN3300 - 1FN3450 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 536 Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 Figure 9-16 Installation dimensions for motors 1FN3300 - 1FN3450 (cross sections and details) 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 537 Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 Dimensions of the peak load primary sections 1FN3300 Size Variable Unit 1FN3300-... Length without connection cover Longitudinal hole pattern 80.5 80.5 80.5 80.5 Total longitudinal hole pattern 80.5 241.5 402.5 563.5 Position 1st hole longitudinal pattern Position of the magnetically active surface Connection cover length...
Page 538 Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 Size Variable Unit 1FN3300-... Version with 2 connecting cables (end of the Article No..0BA1) Thread position (height) 23.4 23.4 23.4 23.4 Thread 1 position (width) 53.5 53.5 53.5 53.5 Thread 2 position (width) 41.5 41.5 41.5...
Page 539 Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 Dimensions of the continuous load primary sections 1FN3300 Size Variable Unit 1FN3300-... Length without connection cover Longitudinal hole pattern 80.5 80.5 80.5 80.5 Total longitudinal hole pattern 80.5 241.5 402.5 563.5 Position 1st hole longitudinal pattern Position of the magnetically active surface 231.8 392.8...
Page 540 Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 Dimensions of the peak load primary sections 1FN3450 Size Variable Unit 1FN3450-... Length without connection cover Longitudinal hole pattern 80.5 80.5 80.5 Total longitudinal hole pattern 241.5 402.5 563.5 Position 1st hole longitudinal pattern Position of the magnetically active surface Connection cover length 11 / 28*...
Page 541 Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 Size Variable Unit 1FN3450-... Version with 2 connecting cables (end of the Article No..0BA1) Thread position (height) 23.4 23.4 23.4 Thread 1 position (width) 53.5 53.5 53.5 Thread 2 position (width) 41.5 41.5 41.5 Thread 1 diameter M32x1.5/...
Page 542 Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 Dimensions of the continuous load primary sections 1FN3450 Size Variable Unit 1FN3450-... Length without connection cover Longitudinal hole pattern 80.5 80.5 80.5 Total longitudinal hole pattern 241.5 402.5 563.5 Position 1st hole longitudinal pattern Position of the magnetically active surface 392.8 553.8...
Page 543 Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 Dimensions of the secondary section of 1FN3300 Size Variable Unit 1FN3300-4SAxx Secondary section length Hole pattern (longitudinal) Total hole pattern (longitudinal) lS1 x (2xN2–1) First hole position of hole pattern (longitudinal) 49.2 Incline Width without heatsink profile Hole pattern (transverse) Width with heatsink profile bKP1...
Page 544 Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 Dimensions of the secondary section of 1FN3450 Size Variable Unit 1FN3450-4SAxx Secondary section length Hole pattern (longitudinal) Total hole pattern (longitudinal) lS1 x (2xN2–1) First hole position of hole pattern (longitudinal) 48.9 Incline Width without heatsink profile Hole pattern (transverse) Width with heatsink profile bKP1...
Page 545: Mounting The Hall Sensor Box
Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 Dimensions of the secondary section end pieces of 1FN3450 Size Variable Unit 1FN3450-0TF00 1FN3450-0TC00 1FN3450-0TG00 1FN3450-0TJ00 Maximum length 58.5 58.5 Hole position (right) Hole distance to secondary section hole Maximum width G 1/8 cooler connector position (height) –...
Page 546 Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 Figure 9-18 Hall sensor box (HSB) with lateral cable outlet for motors 1FN3300 and 1FN3450 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 547 Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 Mounting the Hall sensor box onto continuous load motors 1FN3300 - 1FN3450 Figure 9-19 Mounting the Hall sensor box (HSB) with straight cable outlet for motors 1FN3300-xN … 450-xN 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 548 Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 Figure 9-20 Mounting the Hall sensor box (HSB) with lateral cable outlet for motors 1FN3300-xN … 450-xN 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 549: Heatsink Profiles
Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 9.4.2 Heatsink profiles Figure 9-21 Heatsink profile with plug-type coupling for motors of sizes 1FN3300 and 1FN3450 Figure 9-22 Heatsink profile with hose connector nipple, right, for motors of sizes 1FN3300 and 1FN3450, example 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 550 Assembly drawings/dimension sheets 9.4 1FN3300, 1FN3450 Figure 9-23 Heatsink profile with hose connector nipple, left, for motors of sizes 1FN3300 and 1FN3450, example 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 551: Fn3600
Assembly drawings/dimension sheets 9.5 1FN3600 1FN3600 Figure 9-24 Installation diagram of the motor 1FN3600 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 552 Assembly drawings/dimension sheets 9.5 1FN3600 Figure 9-25 Installation diagram of the motor 1FN3600 (cross sections and details) 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 553 Assembly drawings/dimension sheets 9.5 1FN3600 Dimensions of the peak load primary sections 1FN3600 Size Variable Unit 1FN3600-... Length without connection cover Longitudinal hole pattern 80.5 80.5 80.5 Total longitudinal hole pattern 241.5 402.5 563.5 Position 1st hole longitudinal pattern Position of the magnetically active surface Connection cover length Magnetically active length lP,AKT...
Page 554 Assembly drawings/dimension sheets 9.5 1FN3600 Dimensions of the continuous load primary sections 1FN3600 Size Variable Unit 1FN3600-... Length without connection cover Longitudinal hole pattern 80.5 80.5 80.5 Total longitudinal hole pattern 241.5 402.5 563.5 Position 1st hole longitudinal pattern Position of the magnetically active surface 392.8 553.8 714.8...
Page 555 Assembly drawings/dimension sheets 9.5 1FN3600 Dimensions of the secondary section of 1FN3600 Size Variable Unit 1FN3600-4SAxx Secondary section length Hole pattern (longitudinal) Total hole pattern (longitudinal) lS1 x (2xN2–1) First hole position of hole pattern (longitudinal) 48.6 Incline Width without heatsink profile Hole pattern (transverse) Width with heatsink profile bKP1...
Page 556: Mounting The Hall Sensor Box
Assembly drawings/dimension sheets 9.5 1FN3600 9.5.1 Mounting the Hall sensor box Mounting the Hall sensor onto the peak load motor 1FN3600 Figure 9-26 Hall sensor box (HSB) with straight cable outlet for 1FN3600 motors 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 557 Assembly drawings/dimension sheets 9.5 1FN3600 Figure 9-27 Hall sensor box (HSB) with lateral cable outlet for 1FN3600 motors 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 558 Assembly drawings/dimension sheets 9.5 1FN3600 Mounting the Hall sensor box onto the continuous load motor 1FN3600 Figure 9-28 Mounting the Hall sensor box (HSB) with straight cable outlet for 1FN3600-xN motors 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 559 Assembly drawings/dimension sheets 9.5 1FN3600 Figure 9-29 Mounting the Hall sensor box (HSB) with lateral cable outlet for 1FN3600-xN motors 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 560: Heatsink Profiles
Assembly drawings/dimension sheets 9.5 1FN3600 9.5.2 Heatsink profiles Figure 9-30 Heatsink profile with plug-type coupling for motors of size 1FN3600 Figure 9-31 Heatsink profile with hose connector nipple, R/L, for motors of size 1FN3600, example 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 561: Fn3900
Assembly drawings/dimension sheets 9.6 1FN3900 1FN3900 Figure 9-32 Installation diagram of the motor 1FN3900 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 562 Assembly drawings/dimension sheets 9.6 1FN3900 Figure 9-33 Installation diagram of the motor 1FN3900 (cross sections and details) 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 563 Assembly drawings/dimension sheets 9.6 1FN3900 Dimensions of the peak load primary sections 1FN3900 Size Variable Unit 1FN3900-... Length without connection cover Longitudinal hole pattern 80.5 80.5 80.5 Total longitudinal hole pattern 241.5 402.5 563.5 Position 1st hole longitudinal pattern Position of the magnetically active surface Connection cover length 11 / 28 Magnetically active length...
Page 564 Assembly drawings/dimension sheets 9.6 1FN3900 Dimensions of the continuous load primary sections 1FN3900 Size Variable Unit 1FN3900-... Length without connection cover Longitudinal hole pattern 80.5 80.5 80.5 Total longitudinal hole pattern 241.5 402.5 563.5 Position 1st hole longitudinal pattern Position of the magnetically active surface 392.8 553.8 714.8...
Page 565 Assembly drawings/dimension sheets 9.6 1FN3900 Dimensions of the secondary section of 1FN3900 Size Variable Unit 1FN3900-4SAxx Secondary section length Hole pattern (longitudinal) Total hole pattern (longitudinal) lS1 x (4xN2–1) First hole position of hole pattern (longitudinal) 25.5 Incline Width without heatsink profile Hole pattern (transverse) Width with heatsink profile bKP1...
Page 566: Mounting The Hall Sensor Box
Assembly drawings/dimension sheets 9.6 1FN3900 9.6.1 Mounting the Hall sensor box Mounting the Hall sensor box onto the peak load motor 1FN3900 Figure 9-34 Hall sensor box (HSB) with straight cable outlet for 1FN3900 motors 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 567 Assembly drawings/dimension sheets 9.6 1FN3900 Figure 9-35 Hall sensor box (HSB) with lateral cable outlet for 1FN3900 motors 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 568 Assembly drawings/dimension sheets 9.6 1FN3900 Mounting the Hall sensor box to the continuous load motor 1FN3900 Figure 9-36 Mounting the Hall sensor box (HSB) with straight cable outlet for 1FN3900-xN motors 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 569 Assembly drawings/dimension sheets 9.6 1FN3900 Figure 9-37 Mounting the Hall sensor box (HSB) with lateral cable outlet for 1FN3900-xN motors 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 570: Heatsink Profiles
Assembly drawings/dimension sheets 9.6 1FN3900 9.6.2 Heatsink profiles Figure 9-38 Heatsink profile with plug-type coupling for motors of size 1FN3900 Figure 9-39 Heatsink profile with hose connector nipple, R/L, for motors of size 1FN3900, example 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 571: Coupled Motors
The motors are then electrically connected in parallel, and operate in the parallel mode. If you have any questions in this regard, then contact your local Siemens office. For example, you can obtain information about optimally engineering or dimensioning drive systems with linear motors operating in parallel.
Page 572: Master And Stoker
Coupled motors 10.2 Master and stoker Notes on parallel operation The motor power cables must be the same length in order to ensure uniform current distribution. To operate multiple motors in parallel, you will have to provide space for additional motors and cables.
Page 573 Coupled motors 10.2 Master and stoker ① Tandem arrangement: Master and stoker with the same cable outlet direction on the same secondary section track ② Janus arrangement: Master and stoker with opposite cable outlet directions on the same sec- ondary section track ③...
Page 574: Tandem Arrangement
Coupled motors 10.2 Master and stoker 10.2.1 Tandem arrangement For the tandem arrangement, the distance A between the holes must correspond to an integer positive multiple of the pole pair width. Note Offset factors Offset factors i, i are exclusively integer factors. Distance between the reference holes of the primary sections Integer offset factor, e.g.
Page 575: Janus Arrangement
Coupled motors 10.2 Master and stoker Power connection Table 10- 1 Power connection in a tandem arrangement of two primary sections Motor Module Master Stoker 10.2.2 Janus arrangement The cable outlet of the primary section is opposing. For this reason, two phases must be interchanged on the stoker.
Page 576 Coupled motors 10.2 Master and stoker Distance between the reference holes of the primary sections Minimum distance between reference holes according to the table below "Minimum distances between master and stoker" Housing distance, distance between the primary section housings Integer offset factor τ...
Page 577 If a different minimum distance M is required, you must interchange other phases. • In this case, contact your local Siemens office or "Technical Support". You will find contact data in Chapter "Introduction".
Page 578: Parallel Arrangement
Coupled motors 10.2 Master and stoker Table 10- 3 Minimum distances between master and stoker Primary section type Same length Distance between Minimum distance M housings D Peak load motor 1FN3050-xW 3.5 mm 72.5 mm 1FN3100-xW 1FN3150-xW 1FN3300-xW 10.2 mm 111.2 mm 1FN3450-xW 1FN3600-xW...
Page 579 Coupled motors 10.2 Master and stoker Distance between the reference holes of the primary sections Offset of the secondary sections with respect to one another Integer offset factor, e.g. 0, 1, 2, ... τ Pole width according to Chapter "Technical data and characteristics (Page 165)" ①...
Page 580: Anti-Parallel Arrangement
Coupled motors 10.2 Master and stoker 10.2.4 Anti-parallel arrangement The cable outlet direction of the primary section is opposite. For this reason, two phases must be interchanged for the phase sequence of the master and stoker. Note Offset factor The offset factor i is an integer factor only. Distance between the reference holes of the primary sections Offset of the secondary sections with respect to one another Minimum distance between reference holes according to the table "Minimum distances be-...
Page 581 If a different minimum distance M is required, you must interchange other phases. Note that the minimum distance M then changes. • In this case, contact your local Siemens office or "Technical Support". You will find contact data in Chapter "Introduction".
Page 582: Double-Sided Arrangement
Coupled motors 10.2 Master and stoker 10.2.5 Double-sided arrangement The following versions exist for designing double-sided motors: Version (A) The secondary section support is a plate with bolted-on standard secondary section segments. The support plate can be made of a magnetically active or inactive material (e.g.
Page 583 Design of the mounting plate It is your responsibility to manufacture the mounting plate for the application-specific secondary section track. Obtain advice on this from the your local Siemens office. The mounting plate must be rigid enough to transmit the motor forces during operation.
Page 584: Connection Examples For Parallel Operation
Coupled motors 10.3 Connection examples for parallel operation 10.3 Connection examples for parallel operation WARNING Risk of electric shock! Hazardous touch voltages can be present at unused cores and shields if they have not been grounded or insulated. • Refer to the Chapter "Shielding, grounding and equipotential bonding". System integration for coupled motors 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 585 Coupled motors 10.3 Connection examples for parallel operation The following connection diagrams show the power and signal connection of two linear motors electrically connected in parallel in a tandem arrangement as an example. Table 10- 8 Power connection when operating two linear motors in a tandem arrangement in parallel Motor Module Master Stoker...
Page 586 Coupled motors 10.3 Connection examples for parallel operation Figure 10-2 Connecting the PTC 120 °C via TM120 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 587: Appendix
This document contains recommendations relating to third-party products. Siemens accepts the fundamental suitability of these third-party products. You can use equivalent products from other manufacturers. Siemens does not accept any warranty for the properties of third-party products. A.1.1 Manufacturers of braking elements Schaeffler KG www.schaeffler.com...
Page 588: Manufacturers Of Cold Water Units
Appendix A.1 Recommended manufacturers A.1.2 Manufacturers of cold water units Helmut Schimpke Industriekühlanlagen GmbH + Co. KG www.schimpke.de BKW Kälte-Wärme-Versorgungstechnik GmbH www.bkw-kuema.de Rittal GmbH & Co. KG www.rittal.de Pfannenberg GmbH www.pfannenberg.com Hydac International GmbH www.hydac.com A.1.3 Manufacturers of anti-corrosion agents TYFOROP CHEMIE GmbH Anti-corrosion protection: www.tyfo.de...
Page 589: Manufacturers Of Plastic Hose Manufacturers
Appendix A.1 Recommended manufacturers A.1.5 Manufacturers of plastic hose manufacturers Festo AG & Co. KG www.festo.com Rectus GmbH www.rectus.de A.1.6 Manufacturers of connector nipples and reinforcing sleeves Serto GmbH www.serto.de A.1.7 Manufacturers of spacer foils SAHLBERG GmbH & Co. KG www.sahlberg.de 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 590: List Of Abbreviations
Appendix A.2 List of abbreviations List of abbreviations Abbreviations Binding national health and safety at work regulations (in Germany) Communauté Européenne Deutsches Institut für Normung (German standards organization) European Union Electromagnetic compatibility Electromotive force Europäische Norm (European standard) Frequently Asked Questions High-frequency damping Hall Sensor Box Hardware...
Page 591: Environmental Compatibility
Appendix A.3 Environmental compatibility Temp-F Circuit for monitoring the temperature the motor winding Temp-S Temperature monitoring circuit for switching off the drive at overtemperature Terminal Module Association of Electrical Engineering, Electronics and Information Technology (in Germany) Position measuring system; incl. WMS: incremental position measuring system; abs.
Page 592: Guidelines For Disposal
Appendix A.3 Environmental compatibility A.3.2.1 Guidelines for disposal WARNING Injury or material damage if not correctly disposed of If you do not correctly dispose of direct drives or their components (especially components with permanent magnets), then this can result in death, severe injury and/or material damage.
Page 593: Disposal Of Packaging
Appendix A.4 Terminal markings according to EN 60034-8:2002 Demagnetization of the secondary sections Disposal companies specialized in demagnetization use special disposal furnaces. The insides of the disposal furnace consist of non-magnetic material. The secondary sections are put in the furnace in a solid, heat-resistant container (such as a skeleton container) made of non-magnetic material and left in the furnace during the entire demagnetization procedure.
Page 594 Appendix A.4 Terminal markings according to EN 60034-8:2002 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...
Page 595: Glossary
Glossary Absolute position measuring system By using several reading tracks, the motor is able to recognize the current position with the absolute position measuring system immediately after switching on. The position is recognized without traversing distance and is transmitted via the serial EnDat interface. The measurement path is limited and more expensive due to the more complex measurement track Gantry operation...
Page 596 Glossary Primary section The primary section is the electrically active component of a linear motor. It is usually the moving component. Secondary section Unlike the → primary section, a secondary section is not electrically active. The → secondary section track is composed of secondary sections. Secondary section track The secondary section track is usually composed of multiple →...
Page 597: Index
Index Cooling, 59, 59, 60 Connection, 158, 158 Primary section main cooler, 60 Primary section precision cooler, 60 Accessories, 42 Primary section secondary section cooling, 61 Accidents Secondary section cooling, 61 First aid, 33 Cooling circuits, 65 Air gap Maintenance, 81 Characteristic curves, 471, 472 Parallel connection, 66 Ambient conditions, 36...
Page 598 Index Mounting system General rules, 140 Hall sensor box Screw-in depth, 141 Holding fixture, 157 Screws, 151 Mounting, 95 Tightening torques, 140 Use, 95 Heat-exchanger unit, 69 Heatsink profile, 62 Hole pattern, 510 Hotline, 5 Noise emission, 72 IATA, 475 Operating mode Incorrect commutation, 93 Intermittent duty, 110...
Page 599 Secondary section track Total length, 117 Sensor Module External SME12x, 490 Vibration response, 72 Shielding, 506 Short-time duty, 109 Siemens Service Center, 5 SMC20 Sensor Module Cabinet-Mounted, 490 SME12x, 487 STARTER, 104 Storage, 473 1FN3 linear motors Configuration Manual, 10/2018, 6SN1197-0AB86-0BP2...

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